CN105293097A - Quantitative feeding device for producing pressure gage - Google Patents

Abstract

The invention relates to the field of conveying devices and discloses a quantitative feeding device for producing a pressure gage. The quantitative feeding device comprises a support rod. One end of the support rod is fixed in a hinged mode. A connection rod is hinged to the other end of the support rod. The end, opposite to the connection rod, of the support rod is provided with a cam in an abutted mode. A cambered plate is hinged to the connection rod. The other end of the cambered plate is hinged to the support plate. The support plate is connected with a base platform in a slide mode. An elastic part is connected below the support plate. The other end of the elastic part is fixed to the base platform. The cambered plate is provided with a drive rod in an abutted mode. The middle of the drive rod is fixed in a hinged mode. A push rod is hinged to the side, far away from the cambered plate, of the drive rod. A feed hopper is arranged on the side, far away from the drive rod, of the push rod. The push rod is connected with a material pushing block. The material pushing block is connected in the feed hopper in a slide mode. The outlet of the feed hopper is formed in the side, opposite to the material pushing block, of the feed hopper wall. According to the quantitative feeding device for producing the pressure gage, raw materials can be conveyed quantitatively, and the problem that the raw materials can not be conveyed quantitatively through an existing conveying device is solved.

Description

For making manometric quantitative material feeder

Technical field

The present invention relates to feedway field, being specifically related to one for making manometric quantitative material feeder.

Background technology

It is end instr that compression indicator refers to elastic element, measures and indicates the instrument higher than ambient pressure, and application is very general, and it is almost throughout all industrial flows and scientific research field.Be seen everywhere in fields such as heat distribution pipe network, oil gas transmission, water and air supply system, automotive servicing maintenance factory shops, especially in industrial stokehold and commercial measurement process, elastic sensing element due to mechanical compression table has very high mechanical strength and the characteristic such as convenient for production, makes mechanical compression table obtain applying more and more widely.

As everyone knows, compression indicator can be used for the fluid such as measurement gas or liquid pressure and be widely used in industrial.Present compression indicator is generally made up of base, watchcase, Ba Dunguan, pointer, indication panel, movement and transparent face mask, described watchcase is arranged on the upper surface neighboring place of base, be provided with in the inner chamber that this watchcase and base surround can with the fluid input part of fluid communication, fluid input part is fixedly mounted on base, described fluid input part is connected with one end of Ba Dunguan, the pause other end of pipe of described bar is connected to movement, and described movement is connected to pointer.

When assembling the compression indicator of said structure, raw material is needed to be transported to processing stations respectively by feedway, and existing feedway, general direct use driven by motor belt pulley, belt pulley is arranged in haul cylinder, belt pulley drives belt movement, belt-conveying raw material, enter on belt by feeder hopper raw material, raw material continuous print is transported to processing stations, and processing stations needs part material to capture, then complete assembling, and then the compression indicator assembled is transported to next verification operation.

Be 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 transport too many raw material, part material will be made to cross processing stations, directly be transported to next verification operation, and avoid this problem to occur, just need feedway to transport raw material quantitatively, above-mentioned existing feedway, want to reach the object of quantitatively transporting, just must control motor start-stop frequently, not only increase the operating time, lower efficiency, also produce huge infringement by motor.

Summary of the invention

The invention is intended to provide a kind of without the need to frequent start-stop motor, can quantitatively transport raw material for making manometric quantitative material feeder.

In this programme for making manometric quantitative material feeder, comprise strut bar, strut bar one end is hinged fixing, the other end is hinged with connecting rod, strut bar side relative to connecting rod offsets and is provided with cam, connecting rod is hinged with arc, the arc other end is on the supporting plate hinged, elastic component is connected with under stay bearing plate, the elastic component other end is fixed, arc offsets and is provided with drive spindle, hinged fixing in the middle part of drive spindle, drive spindle is hinged with pull bar away from the side of arc, pull bar is provided with feeder hopper away from the side of drive spindle, capping is hinged with under feeder hopper, capping and pull bar hinged.

The know-why of this programme and beneficial effect are: time initial, the basal plane strut bar of cam offsets, rotating cam, cam will turn to convex surface and strut bar offsets, in the process of rotating, actuated by cams strut bar upwards swings, strut bar drivening rod upwards swings, one end that connecting rod drives arc to be connected with connecting rod upwards swings, because the arc other end is fixed on the supporting plate, and be connected with elastic component under stay bearing plate, the elastic component other end is fixed, so the arc other end will move downward, arc will become skewed.

Arc offsets and is provided with drive spindle, driving drive spindle swings near the direction of arc by arc, and drive pull bar moves downward by the other end of drive spindle, and pull bar pulls capping to lower swing, the outlet of feeder hopper is opened by capping, and part material transports starting.

Cam continues to rotate, and cam will turn to basal plane and strut bar offsets, in the process of rotation, elastic component, due to the elastic force of self, will promote stay bearing plate upward movement, and stay bearing plate will drive arc to reset, arc resets and is moved downward by drivening rod, and connecting rod moves downward and resetted by drive strut bar.

Arc resets and drive spindle also can be driven to reset, and drive spindle will drive pull bar to reset, and pull bar drives capping to reset, and the outlet feeder hopper is closed by pull bar again, and stopping is transported by raw material; Cam is rotated further, and the convex surface of cam will offset with strut bar again, from and capping can be made to open, raw material start again transport, so circulate; Thus capping interval is reciprocally opened, and a certain amount of raw material compartment of terrain is transported to processing stations, reach the object of quantitatively transporting raw material.

Further, drive spindle and the arc place of offseting are arc, can reduce between drive spindle and arc and rub, thus reduce and damage between the two, extend drive spindle and arc service life.

Further, stay bearing plate upper spline is connected with slide bar, and the slide bar other end is fixed.On the supporting plate, in lower slider process, slide bar plays the effect of guiding and supported plate, and what stay bearing plate was moved is more stable.

Further, arc and the drive spindle place of offseting are provided with smooth plate.The setting of smooth plate, further reduces between drive spindle and arc and rubs, thus further minimizing damages between the two, extends drive spindle and arc service life further.

Further, cam is connected with motor.Starter motor, cam starts constantly to rotate, and capping can be made reciprocally to move, and makes raw material compartment of terrain enter into processing stations, thus achieves automated production.

Accompanying drawing explanation

Fig. 1 is that the embodiment of the present invention is for making the structural representation of manometric quantitative material feeder.

Detailed description of the invention

Below by detailed description of the invention, the present invention is further detailed explanation:

Reference numeral in Figure of description comprises: cam 1, strut bar 2, connecting rod 3, smooth plate 4, arc 5, spring 6, slide bar 7, drive spindle 8, pull bar 9, capping 10, feeder hopper 11.

Embodiment is substantially as shown in Figure 1: for making manometric quantitative material feeder, comprise strut bar 2, strut bar 2 left end is hinged fixing, right-hand member is hinged with connecting rod 3, strut bar 2 and connecting rod 3 hinged place offset and are provided with cam 1, cam 1 is connected with motor, connecting rod 3 is hinged with arc 5, arc 5 left end is on the supporting plate hinged, spring 6 is connected with under stay bearing plate, the slide bar 7 with stay bearing plate spline joint is provided with in the middle of spring 6, the lower end of slide bar 7 and spring 6 is fixed, arc 5 is provided with smooth plate 4, smooth plate 4 offsets and is provided with drive spindle 8, drive spindle 8 and smooth plate 4 place of offseting are arc, hinged fixing in the middle part of drive spindle 8, drive spindle 8 right-hand member is hinged with pull bar 9, feeder hopper 11 is provided with on the right side of pull bar 9, feeder hopper is hinged with capping 10 11 times, capping 10 is hinged with pull bar 9.

Time initial, the basal plane strut bar 2 of cam 1 offsets, starter motor, cam 1 rotates, cam 1 will turn to convex surface and strut bar 2 and connecting rod 3 hinged place and offset, in the process of rotating, cam 1 drives strut bar 2 upwards to swing, strut bar 2 drivening rod 3 upwards swings, one end that connecting rod 3 drives arc 5 to be connected with connecting rod 3 upwards swings, because arc 5 other end is fixed on stay bearing plate 2, and stay bearing plate is connected with spring 6 spring 6 other end for 2 times fixes, so arc 5 other end will move downward, arc 5 will become skewed.

Arc 5 is provided with smooth plate 4, smooth plate 4 offsets and is provided with drive spindle 8, driving drive spindle 8 swings near the direction of arc 5 by arc 5 on smooth plate 4, drive pull bar 9 moves downward by the other end of drive spindle 8, pull bar 9 pulls capping 10 to lower swing, the outlet of feeder hopper 11 is opened by capping 10, and part material transports starting.

Cam 1 continues to rotate, cam 1 will turn to basal plane and strut bar 2 offsets, in the process of rotating, spring 6 is due to the elastic force of self, stay bearing plate will be promoted to left movement, drive arc 5 resets by stay bearing plate, and arc 5 resets and to be moved right by drivening rod 3, and connecting rod 3 moves right and resetted by drive strut bar 2; Arc 5 resets and drive spindle 8 also can be driven to reset, and drive pull bar 9 resets by drive spindle 8, and pull bar 9 drives capping 10 to reset, and pull bar 9 is closed again by the outlet of feeder hopper 11, and stopping is transported by raw material; Cam 1 is rotated further, and the convex surface of cam 1 will offset with strut bar 2 again, from and capping 10 can be made to open, raw material start again transport, so circulate; Motor operates always, it also avoid the injury because frequent start-stop causes motor.

Above-described is only embodiments of the invention, 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 structure of the present invention, some distortion and improvement can also be made; these also should be considered as protection scope of the present invention, and these all can not affect effect of the invention process and practical applicability.The protection domain that this application claims should be as the criterion with the content of its claim, and the detailed description of the invention in specification sheets etc. record the content that may be used for explaining claim.

Claims (5)

1. for making manometric quantitative material feeder, it is characterized in that, comprise strut bar, strut bar one end is hinged fixing, the other end is hinged with connecting rod, strut bar side relative to connecting rod offsets and is provided with cam, connecting rod is hinged with arc, the arc other end is on the supporting plate hinged, elastic component is connected with under stay bearing plate, elastic component is fixed away from one end of stay bearing plate, arc offsets and is provided with drive spindle, hinged fixing in the middle part of drive spindle, drive spindle is hinged with pull bar away from the side of arc, pull bar is provided with feeder hopper away from the side of drive spindle, capping is hinged with under feeder hopper, capping and pull bar hinged.

2. according to claim 1 for making manometric quantitative material feeder, it is characterized in that: described drive spindle and the arc place of offseting are arc.

3. according to claim 2 for making manometric quantitative material feeder, it is characterized in that: described stay bearing plate upper spline is connected with slide bar, and the slide bar other end is fixed.

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

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