CN112192213A - Assembly line of carburetor - Google Patents

Abstract

The invention provides an assembly production line of a carburetor, which comprises: a frame; the conveying assembly line is arranged on the rack, and tool plates for fixing the carburetor body are uniformly distributed on the conveying assembly line and move along with the conveying assembly line; a body feed system; an accessory feed tray; a riveting mechanism; a detection mechanism; receive the material system. The invention solves the problem of one-time assembly of different accessories on the carburetor body, in particular to the carburetor body with a plurality of surfaces needing to be assembled with accessories. The production line ensures the quality of products and greatly improves the production efficiency of the products, and the assembly production efficiency of the production line can reach 6-8 pieces/min. Secondly, the assembly of the carburetor originally needs dozens of workers, and the assembly of the production line only needs two workers of feeding and receiving materials to complete all the operations, thereby greatly reducing the labor cost and improving the market competitiveness of the product.

Description

Assembly line of carburetor

Technical Field

The invention relates to the technical field of mechanical assembly, in particular to an assembly production line of a carburetor.

Background

The carburetor assembly requires the stamping of corresponding parts into the housing, such as the oil inlet tube and the needle valve seat, and during assembly, a single part (the oil inlet tube or the needle valve seat) is generally aligned with a corresponding mounting position on the housing, and then the stamping is performed through a corresponding die head arranged on the pneumatic cylinder, and different workers are responsible for the assembly of different parts on one production line. This type of assembly is labor and time consuming and greatly affects production efficiency.

Disclosure of Invention

The invention discloses an assembly production line of a carburetor, and aims to provide automatic carburetor assembly equipment which is high in production efficiency, good in product quality and capable of reducing production cost.

The invention adopts the following scheme:

an assembly line for a carburetor, comprising:

a frame;

the conveying assembly line is arranged on the rack, and tool plates for fixing the carburetor body are uniformly distributed on the conveying assembly line and move along with the conveying assembly line;

the body feeding system is arranged at the front end of the conveying production line and is provided with a feeding device for storing the carburetor body to be assembled and a material taking mechanism for placing the carburetor body on the feeding device on the conveying production line;

the different parts are provided with different feeding disks, and the feeding disks are arranged at intervals along one side of the conveying production line and provide assembly parts for the carburetor body;

the riveting mechanism is connected with the feeding plate so as to assemble the accessories to the carburetor body;

the detection mechanism is arranged behind the riveting mechanism and is used for detecting whether the riveting mechanism is successfully riveted;

and the material receiving system is arranged at the rear end of the conveying production line and is provided with a material receiving device for storing the assembled carburetor body and a material receiving mechanism for placing the assembled carburetor body on the conveying production line on the material receiving device.

As a further improvement, the conveying assembly line is in a square circulation mode, a sliding strip is arranged on the assembling side of the conveying assembly line, a sliding groove matched with the sliding strip is formed in the bottom of the tooling plate, and a positioning block enabling the sliding groove to correspond to the sliding strip is arranged at a corner.

As a further improvement, a positioning device is arranged on the tooling plate, a positioning hole matched with the positioning device is arranged on the carburetor body, and the material taking mechanism automatically aligns the positioning hole with the positioning device to place the carburetor body on the tooling plate.

As a further improvement, the accessory feeding disc comprises a copper ball vibration disc, a needle valve seat vibration disc, an oil inlet pipe vibration disc, a one-way valve vibration disc, an oil return pipe vibration disc, a plug vibration disc, a needle valve vibration disc, a rocker arm pin vibration disc, a rocker arm vibration disc, a spring vibration disc and a filter screen vibration disc, wherein the copper ball vibration disc, the needle valve seat vibration disc, the oil inlet pipe vibration disc, the one-way valve vibration disc, the oil return pipe vibration disc, the plug vibration disc, the needle valve vibration disc, the rocker arm pin vibration disc, the rocker arm vibration disc, the spring vibration disc and the filter screen vibration disc are sequentially installed along the installation side of the conveying production line;

the riveting mechanism comprises a copper ball riveting mechanism, a needle valve seat riveting mechanism, an oil inlet pipe riveting mechanism, a one-way valve riveting mechanism, an oil return pipe riveting mechanism, a plug riveting mechanism, a rocker arm group riveting mechanism and a filter screen riveting mechanism, and the end part of the discharge port of the accessory feeding plate is connected with the corresponding riveting mechanism.

As a further improvement, a pressurizer is further arranged in front of the copper ball vibration disc of the conveying flow line and heats a copper ball mounting cavity on the carburetor body.

The needle valve vibrating disc, the rocker pin vibrating disc, the rocker vibrating disc and the spring vibrating disc are respectively connected with the rocker group assembling mechanism, and the rocker group assembling mechanism assembles the needle valve, the rocker pin, the rocker and the spring into a rocker group and then assembles the rocker group with the carburetor body.

As a further improvement, the device further comprises a rocker arm height adjusting mechanism, wherein the rocker arm height adjusting mechanism is arranged behind the detection mechanism for detecting the rocker arm so as to adjust the height of the rocker arm group to enable the height of the assembled rocker arm to reach a preset height.

As a further improvement, the detection device is an air tightness detection mechanism or a height detection mechanism.

As a further improvement, the conveying production line is provided with at least two dust removal mechanisms, and the feeding device and the receiving device are provided with at least one dust removal mechanism.

By adopting the technical scheme, the invention can obtain the following technical effects:

the invention solves the problem of one-time assembly of different accessories on the carburetor body, in particular to the carburetor body with a plurality of surfaces needing to be assembled with accessories. The production line ensures the quality of products and greatly improves the production efficiency of the products, and the assembly production efficiency of the production line can reach 6-8/min. Secondly, the assembly of the carburetor originally needs dozens of workers, and the assembly of the production line only needs two workers of feeding and receiving materials to complete all the operations, thereby greatly reducing the labor cost and improving the market competitiveness of the product.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an exploded view of the carburetor of the present invention;

FIG. 3 is a schematic diagram of the structure of the transfer pipeline of the present invention;

FIG. 4 is a schematic structural diagram of the copper ball riveting mechanism of the present invention;

FIG. 5 is a schematic structural view of the airtightness detection mechanism according to the present invention;

FIG. 6 is a schematic structural view of the needle valve seat riveting mechanism of the present invention;

FIG. 7 is a schematic structural diagram of an oil inlet pipe riveting mechanism according to the present invention;

FIG. 8 is a schematic structural view of a one-way valve riveting mechanism of the present invention;

FIG. 9 is a schematic structural view of an oil return pipe riveting mechanism according to the present invention;

FIG. 10 is a schematic structural view of a bulkhead vibratory plate of the invention;

FIG. 11 is a schematic structural view of a plug riveting mechanism of the present invention;

FIG. 12 is a schematic structural view of the rocker arm assembly mechanism of the present invention;

FIG. 13 is a schematic view of the height detection mechanism of the present invention;

FIG. 14 is a schematic structural view of the rocker height adjustment mechanism of the present invention;

FIG. 15 is a schematic structural view of a screen riveting mechanism according to the present invention;

FIG. 16 is a schematic view of the structure of the feeding device of the present invention;

FIG. 17 is a schematic view of the dust removing mechanism of the present invention;

icon: 1-a carburetor body; 2-copper balls; 3-needle valve seat; 4-oil inlet pipe; 5-a one-way valve; 6-oil return pipe; 7-plug; 8-needle valve; 9-rocker arm pin; 10-a rocker arm; 11-a spring; 12-a filter screen; 22-copper ball vibration disk; 23-needle valve seat vibrating disk; 24-an oil inlet pipe vibrating disk; 25-a one-way valve vibrating disk; 26-oil return pipe vibration disc; 27-plug vibrating plate; 28-needle valve vibrating disk; 29-rocker pin vibrating disk; 31-rocker arm vibration plate; 32-spring vibratory pan; 33-screen vibrating pan; 34-a copper ball riveting mechanism; 35-needle valve seat riveting mechanism; 36-oil inlet pipe riveting mechanism; 37-a one-way valve riveting mechanism; 38-oil return pipe riveting mechanism; 39-plug riveting mechanism; 40-a rocker arm set riveting mechanism; 41-a filter screen riveting mechanism; 50-air tightness detection mechanism; 60-rocker arm group assembling mechanism; 70-height detection means; 80-rocker height adjustment mechanism; 90-a dust removal mechanism; 100-a frame; 200-a transfer pipeline; 201-a tooling plate; 202-a positioning device; 203-a slide bar; 300-a bulk feed system; 301-a feeding device; 302-a material taking mechanism; 400-a material receiving system; 401-a material receiving device; 402-receiving mechanism.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Examples

With reference to fig. 1 to 17, the present embodiment provides an assembly line of a carburetor, the carburetor includes a carburetor body 1, a copper ball 2, a needle valve 8 seat 3, an oil inlet pipe 4, a check valve 5, an oil return pipe 6, a plug 7, a needle valve 8, a rocker arm pin 9, a rocker arm 10, a spring 11, a filter 12, and other accessories, and the various accessories of the carburetor are assembled on the carburetor body 1 through the assembly line to form a finished carburetor.

The assembly line comprises a rack 100, a conveying assembly line 200 installed on the rack 100, a body feeding system 300 arranged at the front end of the conveying assembly line 200 and used for placing a carburetor body 1 on the conveying assembly line 200, an accessory feeding tray arranged at one side of the conveying assembly line 200, a riveting mechanism for assembling accessories into the carburetor body 1, a detection mechanism for detecting whether riveting is successful or not and a material receiving system 400 arranged at the rear end of the conveying assembly line 200 and used for collecting the assembled carburetor.

Referring to fig. 1 and 3, the transfer line 200 is in a square circulation, and tool plates 201 for fixing the carburetor body 1 are uniformly distributed on the transfer line 200, and the tool plates 201 move along with the transfer line 200. The tooling plate 201 is provided with a positioning device 202, the carburetor body 1 is provided with a positioning hole matched with the positioning device 202, and the carburetor body 1 is fixed on the tooling plate 201 by aligning the positioning hole with the positioning device 202. In this embodiment, the positioning device 202 is a positioning pin, and at least two positioning pins are provided to prevent the carburetor body 1 from rotating during assembly.

The body feeding system 300 is provided with a feeding device 301 for storing the carburetor body 1 to be assembled and a material taking mechanism 302 for placing the carburetor body 1 on the feeding device 301 on the transfer line 200. Feedway 301 is a hacking machine, the equipartition has the recess corresponding with 1 appearance of carburetor body on the tray, extracting mechanism 302 is a manipulator, only need alone place the tray that holds carburetor body 1 on the hacking machine, the manipulator can place carburetor body 1 on the tray on frock board 201 one by one automatically, frock board 201 moves forward, one side that is equipped with the equipment through conveying assembly line 200 carries out the riveting equipment, detect, collect in material receiving system 400 department behind the finished product and collect. Similarly, the material receiving system 400 includes a material receiving device 401 for storing the assembled carburetor body 1 and a material receiving mechanism 402 for placing the carburetor body 1 assembled on the transfer line 200 on the material receiving device 401. It will be appreciated that the receiving device 401 may be a stacker as the feeding device 301, and that the receiving mechanism 402 and the picking mechanism 302 are both robotic arms. After the tray on the material receiving device 401 is filled with the carburetor, only one empty tray needs to be replaced, and of course, another manipulator can be used for automatically replacing or adding the tray.

The assembling side of the conveying assembly line 200 is provided with a sliding strip 203, the bottom of the tooling plate 201 is provided with a sliding groove matched with the sliding strip 203, and the corner of the conveying assembly line 200 is provided with a positioning block, when the assembly line conveys the tooling plate 201 to the mounting side, the positioning block limits the position of the tooling plate 201, so that the tooling plate 201 changes from transverse movement to longitudinal movement, and the sliding groove can move along the sliding strip 203. It should be noted that, at the other side of the conveying line 200, the slide bar 203 is not required to be provided, and only the belt conveying is required. Because when the riveting accessory, draw runner 203 can not only restrict the position of frock board 201, also can prevent that the side of frock board 201 from turning on one's side when the riveting from causing the riveting deviation to produce the defective products. How to change the transmission pipeline 200 between the transverse transmission direction and the longitudinal transmission direction is a prior art means, and is not described in detail herein.

In this embodiment, the accessory feeding tray includes a copper ball vibration tray 22, a needle valve seat vibration tray 23, an oil inlet pipe vibration tray 24, a check valve vibration tray 25, an oil return pipe vibration tray 26, a plug vibration tray 27, a needle valve vibration tray 28, a rocker pin vibration tray 29, a rocker vibration tray 31, a spring vibration tray 32 and a filter screen vibration tray 33, and the copper ball vibration tray 22, the needle valve seat vibration tray 23, the oil inlet pipe vibration tray 24, the check valve vibration tray 25, the oil return pipe vibration tray 26, the plug vibration tray 27, the needle valve vibration tray 28, the rocker pin vibration tray 29, the rocker vibration tray 31, the spring vibration tray 32 and the filter screen vibration tray 33 are sequentially installed along the installation side of the conveying line 200 at intervals. The riveting mechanism is connected with the feeding plate and comprises a copper ball riveting mechanism 34, a needle valve seat riveting mechanism 35, an oil inlet pipe riveting mechanism 36, a one-way valve riveting mechanism 37, an oil return pipe riveting mechanism 38, a plug riveting mechanism 39, a rocker arm group riveting mechanism 40 and a filter screen riveting mechanism 41, and the end part of the discharge port of the accessory feeding plate is connected with the corresponding riveting mechanism. It should be noted that all accessories all adopt vibration dish autofilter, and automatic feeding can sieve out the defective products in the accessory automatically, prevents to assemble bad accessory, appears the defective products to the condition that needs the rework.

Further, the conveying assembly line 200 is further provided with a pressurizer in front of the copper ball vibration disc 22, the pressurizer pressurizes the copper ball 2 installation cavity on the carburetor body 1, so that the opening of the copper ball 2 installation cavity is softened, the copper ball riveting mechanism 34 is convenient to press in, the completeness of the opening is guaranteed, and the opening is prevented from being easily damaged during riveting. It can be understood that the size of the opening of the copper ball 2 installation cavity is inevitably smaller than the diameter of the copper ball 2, so that the copper ball 2 can be freely moved in the copper ball 2 installation cavity after being installed without falling off, but if forced riveting is carried out during installation, the opening is easily broken, and the installation quality is affected. When the carburetor body 1 is made of ABS material, the pressurizing device can be used for pressurizing to 100 degrees to generate thermal deformation of the material, and the original shape can be recovered after cooling, so that the installation of the copper ball 2 is facilitated.

In the present embodiment, the fuel injector further includes a rocker arm assembly mechanism 60 and a rocker arm height adjustment mechanism 80, the needle valve vibrating plate 28, the rocker arm pin vibrating plate 29, the rocker arm vibrating plate 31, and the spring vibrating plate 32 are connected to the rocker arm assembly mechanism 60, respectively, and the rocker arm assembly mechanism 60 assembles the needle valve 8, the rocker arm pin 9, the rocker arm 10, and the spring 11 into a rocker arm assembly, and then assembles the rocker arm assembly with the carburetor body 1. The rocker height adjustment mechanism 80 is provided behind the detection mechanism for detecting the rocker arm 10 to adjust the height of the rocker arm 10 group so that the height of the assembled rocker arm 10 reaches a preset height.

In the present embodiment, the detection mechanism includes the airtightness detection mechanism 50 and the height detection mechanism 70. When the copper ball 2 or the check valve 5 is assembled, the air tightness needs to be detected, and the height of the rocker arm 10 needs to be detected after the rocker arm 10 group is assembled, so that the problems that the air tightness is poor in the using process and the height of the rocker arm 10 is not enough and needs to be adjusted again when a carburetor is installed on equipment such as a mower are solved. Of course, other detection means may be provided to detect the attachment of other accessories.

Further, be provided with dust removal mechanism 90 on the conveying assembly line 200, dust removal mechanism 90 is equipped with two at least, is equipped with one dust removal mechanism 90 on feedway 301 and the material collecting device 401 at least to clear up starting the assembly, prevent the influence to the assembly process such as dust particle, remove dust to the finished product after the assembly is accomplished, reduce the manual work and to the clearance of finished product, reduce manual operation, reduce the cost of labor. Of course, the fittings and the carburetor body 1 can be dedusted in the middle feeding and riveting process.

The process flow of the assembly production line is as follows:

a worker places a feeding device 301 provided with a carburetor body 1 on a rack 100, a material taking mechanism 302 automatically clamps and places the carburetor body 1 on a tooling plate 201 of a conveying assembly line 200, the tooling plate 201 moves forwards, a dust removing mechanism 90 removes dust from the carburetor body 1, a pressurizer pressurizes a copper ball installation cavity, a copper ball vibration disc 22 vibrates for feeding, a copper ball riveting mechanism 34 is riveted, a detection mechanism carries out copper ball 2 airtight detection, a needle valve seat vibration disc 23 is fed, a needle valve seat riveting mechanism 35 is riveted, an oil inlet pipe vibration disc 24 is fed, an oil inlet pipe riveting mechanism 36 is riveted, the installation part of a check valve 5 is dedusted, a check valve vibration disc 25 is fed, a check valve riveting mechanism 37 is riveted, a check valve 5 is airtight detected, an oil return pipe vibration disc 26 is fed, an oil return pipe riveting mechanism 38 is riveted, a needle valve 8 seat 3 is airtight detected, an oil return pipe 6 is airtight detected, a plug vibration disc 27 is fed, the plug riveting mechanism 39 is used for riveting, the needle valve vibration disc 28, the rocker arm pin vibration disc 29, the rocker arm vibration disc 31 and the spring vibration disc 32 are fed to the rocker arm group assembling mechanism 60 together and then are riveted to the carburetor body 1 after being assembled, the height of the rocker arm 10 is detected, the height of the rocker arm 10 is adjusted, the filter screen vibration disc 33 is fed, the filter screen riveting mechanism 41 is used for riveting, and after the assembly is completed, the material receiving mechanism 402 clamps the carburetor into the material receiving device 401, so that the assembly of the carburetor is completed.

The invention solves the problem of one-time assembly of different accessories on a carburetor body 1, in particular to a carburetor body 1 with a plurality of surfaces needing to be assembled with accessories. The production line ensures the quality of products and greatly improves the production efficiency of the products, and the assembly production efficiency of the production line can reach 6-8/min. Secondly, the assembly of the carburetor originally needs dozens of workers, and the assembly of the production line only needs two workers of feeding and receiving materials to complete all the operations, thereby greatly reducing the labor cost and improving the market competitiveness of the product.

The above is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above-mentioned embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention.

Claims (9)

1. An assembly line for a carburetor, comprising:

a frame;

the conveying assembly line is arranged on the rack, and tool plates for fixing the carburetor body are uniformly distributed on the conveying assembly line and move along with the conveying assembly line;

the body feeding system is arranged at the front end of the conveying production line and is provided with a feeding device for storing the carburetor body to be assembled and a material taking mechanism for placing the carburetor body on the feeding device on the conveying production line;

the different parts are provided with different feeding disks, and the feeding disks are arranged at intervals along one side of the conveying production line and provide assembly parts for the carburetor body;

the riveting mechanism is connected with the feeding plate so as to assemble the accessories to the carburetor body;

the detection mechanism is arranged behind the riveting mechanism and is used for detecting whether the riveting mechanism is successfully riveted;

and the material receiving system is arranged at the rear end of the conveying production line and is provided with a material receiving device for storing the assembled carburetor body and a material receiving mechanism for placing the assembled carburetor body on the conveying production line on the material receiving device.

2. The assembly line of a carburetor according to claim 1, wherein the transfer line is a square cycle, the transfer line is provided with a slide bar on an assembly side, the bottom of the tooling plate is provided with a slide groove matching with the slide bar, and a positioning block is provided at a corner to make the slide groove correspond to the slide bar.

3. The assembly line of claim 1, wherein the tooling plate is provided with a positioning device, the carburetor body is provided with a positioning hole matching with the positioning device, and the fetching mechanism automatically aligns the positioning hole with the positioning device to fix the carburetor body on the tooling plate.

4. The assembly line of a carburetor according to claim 1, wherein the accessory feed tray includes a copper ball vibration tray, a needle seat vibration tray, an oil inlet pipe vibration tray, a check valve vibration tray, an oil return pipe vibration tray, a choke plug vibration tray, a needle valve vibration tray, a rocker pin vibration tray, a rocker arm vibration tray, a spring vibration tray and a strainer vibration tray, the copper ball vibration tray, the needle seat vibration tray, the oil inlet pipe vibration tray, the check valve vibration tray, the oil return pipe vibration tray, the choke plug vibration tray, the needle valve vibration tray, the rocker pin vibration tray, the rocker arm vibration tray, the spring vibration tray and the strainer vibration tray being sequentially mounted along the mounting side of the transfer line;

the riveting mechanism comprises a copper ball riveting mechanism, a needle valve seat riveting mechanism, an oil inlet pipe riveting mechanism, a one-way valve riveting mechanism, an oil return pipe riveting mechanism, a plug riveting mechanism, a rocker arm group riveting mechanism and a filter screen riveting mechanism, and the end part of the discharge port of the accessory feeding plate is connected with the corresponding riveting mechanism.

5. The assembly line of a carburetor according to claim 4, wherein the transfer line is further provided with a pressurizer in front of the copper ball vibration plate, and the pressurizer heats the copper ball mounting cavity on the carburetor body.

6. The assembly line of a carburetor according to claim 4, further comprising a rocker arm set assembly mechanism, wherein the needle valve vibrating plate, the rocker arm pin vibrating plate, the rocker arm vibrating plate and the spring vibrating plate are connected to the rocker arm set assembly mechanism, respectively, and the rocker arm set assembly mechanism assembles the needle valve, the rocker arm pin, the rocker arm and the spring into a rocker arm set and then assembles the rocker arm set with the carburetor body.

7. The assembly line of a carburetor according to claim 6, further comprising a rocker arm height adjustment mechanism provided behind the detection mechanism for detecting the rocker arm so as to adjust the height of the rocker arm set to a predetermined height after assembly.

8. A carburetor assembly line according to claim 7, wherein said detection means is an air tightness detection means or a height detection means.

9. A carburetor assembly line according to claim 1, wherein the transfer line is provided with at least two dust removing mechanisms, and the supply device and the receiving device are provided with at least one dust removing mechanism.

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