CN114535966A

CN114535966A - High-efficient collator of card formula stove valve door

Info

Publication number: CN114535966A
Application number: CN202210342709.4A
Authority: CN
Inventors: 彭山宏; 张正兵
Original assignee: YANGZHOU MEIDA FILLING MACHINERY CO Ltd
Current assignee: YANGZHOU MEIDA FILLING MACHINERY CO Ltd
Priority date: 2022-04-02
Filing date: 2022-04-02
Publication date: 2022-05-27
Anticipated expiration: 2042-04-02
Also published as: CN114535966B

Abstract

A high-efficiency finishing machine for a valve of a clamping furnace. Relate to gas pitcher processing equipment, especially relate to a high-efficient collator of card formula stove valve. The method comprises the following steps: the feeding screening device conveys the cassette furnace valve from the hopper to the guide rail conveying device; and the guide rail transmission device comprises a guide rail transmission device body and a guide rail transmission device body, wherein the guide rail transmission device body comprises a guide rail transmission device body and a guide rail transmission device body which are sequentially fixedly connected: the feeding valve guide rail is obliquely and fixedly arranged on the machine body and connected with the discharging end of the feeding screening device, and a clamping furnace valve slides into the buffering valve guide rail through a first valve groove on the feeding valve guide rail; the directional valve guide rail comprises an upper guide rail seat, a left lower guide rail, a right lower guide rail and a plurality of air blowing joints; and a third valve slot matched with the clamping furnace valve is arranged in the upper guide rail seat. The invention has the characteristics of exquisite structure, capability of automatically adjusting the L-shaped valve rod posture at the lower end of the valve in the assembling process, improvement on the assembling efficiency and the like.

Description

High-efficient collator of card formula stove valve door

Technical Field

The invention relates to gas tank processing equipment, in particular to a high-efficiency finishing machine for a valve of a clamping furnace.

Background

At present, because the propane butane is mostly stored in the cassette furnace gas pitcher, belong to a flammable explosive gas, like this, for making the output pressure of cassette furnace gas pitcher stable, the security is high, stability is better and do not have after the use and remain, set up the cassette furnace valve on the gas pitcher usually. Refer to fig. 1 and 2; due to the unique structure of the card-type furnace valve, when the card-type furnace valve enters the aerosol can, a certain angle is formed between the card-type furnace valve and the aerosol can, the bottom (the L-shaped valve rod in figure 1) of the card-type furnace valve is inclined into the aerosol can, and then the card-type furnace valve integrally falls into the filling opening of the aerosol can. Before the valve enters the tank, the L-shaped valve rod at the lower end of the valve of the cassette furnace needs to be ensured at the front end of the running direction. The L-shaped valve rod at the lower end of the valve of the cassette furnace is adjusted in the direction by manually selecting from a material pile, steering and adjusting, and putting into a fixed material tray, so that the efficiency is low, the problems of wrong adjustment position and the like exist, and the batch and automatic production is not facilitated.

Disclosure of Invention

Aiming at the problems, the invention provides the high-efficiency valve finishing machine of the clamping furnace, which has an exquisite structure and can automatically adjust the L-shaped valve rod posture at the lower end of the valve in the assembling process so as to improve the assembling efficiency.

The technical scheme of the invention is as follows: a high-efficient collator of card furnace valve, includes:

the feeding screening device conveys the cassette furnace valve from the hopper to the guide rail conveying device; and

guide rail transmission device, guide rail transmission device is including fixed connection in proper order:

the feeding valve guide rail is obliquely and fixedly arranged on the machine body and connected with the discharging end of the feeding screening device, and a clamping furnace valve slides into the buffering valve guide rail through a first valve groove on the feeding valve guide rail;

the directional valve guide rail comprises an upper guide rail seat, a left lower guide rail, a right lower guide rail and a plurality of air blowing joints;

a third valve slot matched with the clamping furnace valve is arranged in the upper guide rail seat;

the right lower guide rail is fixedly arranged on one side of the upper guide rail seat, and the front end of the right lower guide rail, which is close to the end part of the upper guide rail seat, is provided with a first lead-in part;

the left lower guide rail is fixedly arranged on the other side of the upper guide rail seat, and a second leading-in part is arranged at the middle part of the front end of the left lower guide rail, which is close to the upper guide rail seat;

the plurality of air blowing joints are arranged at the bottom of the upper guide rail seat, air blowing holes of the air blowing joints are matched with the L-shaped valve rod of the clamping furnace valve, and the direction of the L-shaped valve rod is changed by the clamping furnace valve passing through the right lower guide rail in an air blowing mode.

Further, the air blowing joint comprises a first air blowing joint, a second air blowing joint and a third air blowing joint;

the first air blowing joint is adjustably and fixedly arranged on the right lower guide rail, and an air blowing hole of the first air blowing joint faces the direction of the third valve slot;

the second air blowing joint and the third air blowing joint are respectively and fixedly arranged on the left lower guide rail at adjustable intervals, and air blowing holes of the second air blowing joint and the third air blowing joint face the direction of the third valve slot.

Furthermore, the card type furnace valve is arranged in a third valve slot and sequentially passes through the first air blowing joint, the second air blowing joint and the third air blowing joint.

Further, the air blowing pressures of the second air blowing joint and the third air blowing joint are respectively greater than the air blowing pressure of the first air blowing joint.

And the buffer valve guide rail is provided with a second valve groove matched with the first valve groove.

Further, the upper guide rail seat comprises a left upper guide rail and a right upper guide rail;

the third valve slot is arranged between the left upper guide rail and the right upper guide rail;

the left lower guide rail is arranged below the left upper guide rail;

the right lower guide rail is arranged below the right upper guide rail.

Further, the material loading sieving mechanism includes:

a body;

the rotary table is rotatably arranged on the machine body;

the hopper is in a circular truncated cone shape and is fixedly arranged on the machine body, and a feeding hole is formed in the top of the hopper;

the cylindrical magnets are fixedly arranged on the rotary table at intervals and are matched with the hopper, and the clamping furnace valve in the hopper is adsorbed, rotated and lifted;

and the screening mechanism enables the clamping furnace valve which is adsorbed on the turntable and is in a horizontal shape to pass through and enter the guide rail transmission device.

Further, the screening mechanism comprises an upper baffle and a screening plate;

and a rotating channel matched with the flange plate of the cassette furnace valve is arranged between the upper baffle plate and the screening plate.

The upper baffle is in an arc shape, is matched with the rotary table and is fixedly arranged on the machine body;

the upper part of the front end of the screening plate is provided with a leading-in part, and the lower part is provided with a leading-out part.

Furthermore, the screening plate is adjustably and fixedly arranged below the upper baffle plate through a screening fixing plate;

the screening fixed plate is adjustably arranged on the machine body through the stud at the upper part and is fixedly connected with the screening plate through the stud at the lower part in an adjustable way.

Furthermore, the turntable is in transmission connection with a speed regulating motor through a transmission mechanism.

The feeding screening device conveys the card type furnace valve from the hopper to the guide rail transmission device; the guide rail transmission device comprises a valve inlet guide rail, a buffer valve guide rail and a directional valve guide rail which are fixedly connected in sequence; the card type furnace valve enters the directional guide rail from the buffer guide rail, and the valve rod of the card type furnace valve entering the position is guided downwards by the first guide part because the first guide part is arranged at the front end of the right lower guide rail, and the L-shaped valve rod enters the air blowing area. The L-shaped front end of the valve rod is aligned substantially with the direction of travel by means of a blow connection in the blow region. The invention has the characteristics of exquisite structure, capability of automatically adjusting the L-shaped valve rod posture at the lower end of the valve in the assembling process, improvement on the assembling efficiency and the like.

Drawings

FIG. 1 is a schematic structural diagram of a cassette furnace valve in a tank in the prior art,

FIG. 2 is a schematic view of the installation structure of the valve of the cassette furnace in the prior art after the valve is placed in the tank,

figure 3 is a schematic view of the front view structure of the present invention,

figure 4 is a side view of the structure of figure 3,

figure 5 is a schematic perspective view of the present invention,

FIG. 6 is a schematic perspective view of the transmission connection state of the turntable and the speed-regulating motor through the transmission mechanism,

FIG. 7 is a front view of FIG. 6

Figure 8 is a schematic view of the structure in direction a of figure 7,

figure 9 is an enlarged schematic view of the region a' in figure 8,

figure 10 is a schematic perspective view of the screening mechanism,

figure 11 is a schematic perspective view of the screening fixing plate after being hidden,

figure 12 is a front view of figure 11,

figure 13 is an enlarged schematic view of region II of figure 12,

figure 14 is a schematic perspective view of the guide rail transmission device,

figure 15 is a schematic perspective view of the guide rail conveying device,

figure 16 is a front view of the guide rail transfer device,

figure 17 is a schematic view of the structure in direction B,

FIG. 18 is a schematic perspective view of the cassette furnace valve in the inlet valve guide rail and the buffer valve guide rail,

figure 19 is a schematic perspective view of a directional valve guide,

figure 20 is a schematic view of the bottom structure of the directional valve guide,

figure 21 is a schematic view of a side structure of a directional valve guide,

FIG. 22 is a schematic view showing a structure in a state where the air blowing joint is used,

figure 23 is a schematic view of the configuration of the cassette oven valve as soon as it passes the blow fitting,

FIG. 24 is a schematic view showing the structure of the second card type furnace valve passing through the gas blowing connector,

FIG. 25 is a schematic view showing the structure of the state where the third valve of the cassette type furnace passes through the gas blowing joint,

figure 26 is a schematic view of the cassette furnace valve just prior to entry into the lower left guide,

FIG. 27 is a schematic view of the lower left rail as it enters between the lower left rail and the lower right rail;

in the figure 100 is a feed screening device,

110 is a body, 111 is a bearing, 120 is a turntable, 130 is a hopper, 140 is a cylindrical magnet,

150 is a screening mechanism, 151 is an upper baffle, 152 is a screening plate, 1521 is an inlet portion, 1522 is an outlet portion,

153 is a screening fixing plate which is,

161 is a transmission mechanism, 162 is a speed regulating motor,

200 is a guide rail transfer device which is,

210 is an intake valve guide, 211 is a first valve groove,

220 is a guide rail of the buffer valve,

230 is a directional valve guide rail, 231 is an upper guide rail seat, 232 is a lower left guide rail, 2321 is a second lead-in, 233 is a lower right guide rail, 2331 is a first lead-in, 234 is a blow fitting, 2341 is a first blow fitting, 2342 is a second blow fitting, 2343 is a third blow fitting,

300 is a valve for a cassette type furnace,

400 is an aerosol can.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "left", "right", "vertical", "horizontal", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The present invention is described below with reference to fig. 3 and 27:

referring to fig. 3-5, a high efficiency collator for a cassette furnace valve includes:

a loading screening device 100, wherein the loading screening device 100 conveys the cassette furnace valve 300 from the hopper 130 to the guide rail transmission device 200; and

guide rail transmission device 200, guide rail transmission device 200 is including fixed connection's in proper order:

the feeding valve guide rail 210 is obliquely and fixedly arranged on the machine body 110 and is connected with the discharging end of the feeding screening device 100, and the cassette furnace valve 300 slides into the buffer valve guide rail 220 through a first valve groove 211 on the feeding valve guide rail 210;

a directional valve guide 230, the directional valve guide 230 comprising an upper guide seat 231, a left lower guide 232, a right lower guide 233 and a plurality of blow-off connectors 234;

a third valve slot matched with the cassette furnace valve 300 is arranged in the upper guide rail seat 231; the cassette furnace valve 300 slides in the third valve slot by gravity from the obliquely arranged inlet valve guide rail 210 and the buffer valve guide rail 220;

the right lower guide rail 233 is fixedly arranged at one side of the upper guide rail seat 231, and a first lead-in part 2331 is arranged at the end part of the front end (the end where the cassette furnace valve 300 firstly enters) close to the upper guide rail seat 231;

the left lower guide rail 232 is fixedly arranged at the other side of the upper guide rail seat 231, and a second lead-in part 2321 is arranged at the middle part of the front end of the left lower guide rail, which is close to the upper guide rail seat 231;

the plurality of air blowing joints 234 are provided at the bottom of the upper guide rail seat 231, air blowing holes thereof are fitted with L-shaped valve rods of the cassette furnace valves 300, and the cassette furnace valves 300 passing through the right lower guide rail 233 change the direction of the L-shaped valve rods in an air blowing manner, even if the L-shaped valve rods of the lower ends of the cassette furnace valves 300 are at the front end of the running direction (the mouth of the L-shape is toward the advancing direction).

Referring to FIG. 22, the blow fitting 234 includes a first blow fitting 2341, a second blow fitting 2342, and a third blow fitting 2343;

the first air blowing joint 2341 is adjustably and fixedly arranged on the right lower guide rail 233, and an air blowing hole of the first air blowing joint faces the direction of the third valve slot;

the second and

third blowing joints

2342 and 2343 are respectively and fixedly arranged on the left lower guide rail 232 through extension plates at adjustable intervals, and the blowing holes of the second and third blowing joints face the direction of the third valve slot.

The air blowing holes of the first air blowing joint 2341, the second air blowing joint 2342 and the third air blowing joint 2343 are 1mm respectively, are in a straight line with the center line of the horizontal part of the L-shaped valve rod, and change the direction of the front end of the L-shaped valve rod through air blowing;

referring to fig. 20, the cassette furnace valve enters the guide rail from the buffer guide rail, and since the front end of the right lower guide rail 233 is provided with the first introduction part 2331, the valve rod of the cassette furnace valve 300 entering the position is guided downward by the first introduction part 2331, and the L-shaped valve rod enters the air blowing region.

The cassette oven valve 300 is in the third valve slot and passes through the first, second and

third blow fittings

2341, 2342, 2343 in sequence.

The blowing pressures of the second blowing connection 2342 and the third blowing connection 2343 are respectively greater than the blowing pressure of the first blowing connection 2341.

Referring to fig. 22, when the three cassette furnace valves 300 at the right end respectively enter the third valve slot in different postures, the working principles are as follows:

referring to fig. 23, in the drawing, the first air blowing joint 2341, the second air blowing joint 2342 and the third air blowing joint 2343 are used for blowing air all the time, the direction of the L-shaped front end of the valve rod of the cassette stove valve 300 is consistent with the running direction, the first air blowing joint 2341 turns the valve rod at a certain angle, the second air blowing joint 2342 blows air when the valve rod is not turned to be perpendicular to the running direction due to the fact that the direction of the first air blowing joint 2341 is inclined to the running direction, the valve rod is turned to the previous direction, and the third air blowing joint 2343 is used for continuing blowing air and cooperating with the right lower guide rail 233, so that the L-shaped front end of the valve rod is ensured to be consistent with the running direction.

Referring to fig. 24, the L-shaped end of the valve rod receives the air blowing from the second air blowing connector 2342, and then the L-shaped front end of the valve rod moves to the first air blowing connector 2341 after the direction of the L-shaped front end of the valve rod is substantially consistent with the moving direction, and the first air blowing connector 2341 cannot turn over the L-shaped valve rod due to the high air blowing pressure of the second air blowing connector 2342.

Referring to fig. 25, after the L-shaped end of the valve stem is turned over through the first air-blowing connector 2341 in a direction substantially identical to the operating direction, air is continuously blown through the second air-blowing connector 2342 and the third air-blowing connector 2343, and the valve stem in the same operating direction is caught by the right lower guide rail 233.

After the L-shaped front end of the valve rod is basically consistent with the running direction, the valve rod enters the tapered area of the left lower guide rail 232, as shown in fig. 26, the valve is guided by limiting at two sides and enters the directional area, as shown in fig. 27, the valve entering the valve inserting mechanism is ensured, and the front end of the L-shaped direction is consistent with the running direction.

Referring to fig. 18, the valve guide rail 220 further includes a second valve groove adapted to the first valve groove 211 and provided on the valve guide rail 220, and the second valve groove slides into a third valve groove of the directional valve guide rail 230.

Referring to fig. 19, the upper rail seat 231 includes a left upper rail and a right upper rail;

the left lower guide rail 232 is arranged below the left upper guide rail;

the right lower rail 233 is installed below the right upper rail.

Referring to fig. 5, the feeding and screening apparatus 100 includes:

a body 110;

the turntable 120 is of a circular structure, is rotatably arranged on the machine body 110, and is driven to rotate by the speed regulating motor 162;

the hopper 130 is in a circular truncated cone shape and is fixedly arranged on the machine body 110, and a feed inlet for adding the cassette furnace valve 300 is formed in the top of the hopper 130; the axis of the hopper 130 is perpendicular to the body 110, the cassette furnace valve in the hopper 130 rolls towards the direction of the turntable 120 through the inclined surface of the hopper 130 and is attracted with the cylindrical magnet 140;

the cylindrical magnets 140 are fixedly arranged on the rotary disc 120 at intervals and are matched with the hopper 130, and the clamping furnace valve 300 in the hopper 130 is adsorbed, rotated and lifted;

and the screening mechanism 150 is used for enabling the cassette furnace valve 300 which is horizontally adsorbed on the rotary disc 120 (as shown in the horizontal state in figure 1, the outer circular surface of the flange disc side of the cassette furnace valve 300 is in a suction state with the cylindrical magnet 140) to pass through and enter the guide rail transmission device 200.

Referring to fig. 11 to 13, the screening mechanism 150 includes an upper baffle 151 and a screening plate 152;

a rotating channel matched with the flange plate of the cassette furnace valve 300 is arranged between the upper baffle 151 and the screening plate 152.

The upper baffle 151 is arc-shaped, is matched with the turntable 120 and is fixedly arranged on the machine body 110;

an introduction portion 1521 is provided above the front end of the screening plate 152, and a discharge portion 1522 is provided below the front end. The introduction portion 1521 quickly introduces the horizontal cassette furnace valve 300 between the upper baffle 151 and the screen plate 152; the guiding portion 1522 is an inclined surface for rapidly separating the cassette furnace valve 300 with the wrong adsorption from the cylindrical magnet 140 and dropping into the hopper 130.

Referring to fig. 10, the screening plate 152 is adjustably and fixedly disposed below the upper barrier 151 by a screening fixing plate 153;

the screening fixing plate 153 is adjustably arranged on the machine body 110 through an upper stud, and is adjustably and fixedly connected with the screening plate 152 through a lower stud.

Referring to fig. 6, the turntable 120 is in transmission connection with a speed regulating motor 162 through a transmission mechanism 161.

The transmission mechanism 161 includes a driving sprocket, a driven sprocket and a chain;

the driving chain wheel is fixedly sleeved at the output end of the speed reducer connected with the speed regulating motor 162;

the driven chain wheel is fixedly sleeved on a rotating shaft fixedly connected with the turntable 120;

the driven chain wheel is in transmission connection with the driving chain wheel through a chain.

Preferably, the body 110 is provided with a bearing 111 in rolling connection with the turntable 120, and the bearing 111 is horizontally movably arranged on the body 110 through a bearing rod.

Further defined, the turntable 120 has a circular configuration.

Preferably, the cylindrical magnets 140 are uniformly and fixedly arranged on the rotating disc 120 with the center of the rotating disc 120 as the center point, and are adapted to the hopper 130.

Referring to fig. 9, the turntable 120 is provided with a plurality of mounting holes adapted to the cylindrical magnets 140, the cylindrical magnets 140 are embedded in the turntable 120, and the end portions of the cylindrical magnets are located in the mounting holes.

Further optimization, an expansion link is arranged between adjacent mounting holes, the extension amount of the expansion link is controlled by a cylinder connected with the expansion link, and the extension length of the expansion link on the rotary table 120 is adjusted according to the specification characteristics of components in the hopper 130, so that the expansion link is used for stirring the components in the hopper 130.

Further defined, the body 110 includes a lower seat and an upper seat;

the upper seat body is fixedly arranged at the top of the lower seat body;

and a rotating cavity matched with the rotating disc 120 is arranged on the upper seat body.

The rotary table 120 with the magnet is adopted in the scheme, the conveying cassette furnace valve 300 has the characteristics of high speed, high efficiency and the like, the direction of the L-shaped end (the L-shaped valve rod) at the lower end of the cassette furnace valve 300 is controlled by blowing in the through hole of the guide rail part, the valve entering the working position of the valve inserting machine is ensured, the direction and the moving direction of the L-shaped end are consistent, and the quick assembly of the valve inserting machine into the air fog tank 400 is facilitated.

The disclosure of the present application also includes the following points:

(1) the drawings of the embodiments disclosed herein only relate to the structures related to the embodiments disclosed herein, and other structures can refer to general designs;

(2) in case of conflict, the embodiments and features of the embodiments disclosed in this application can be combined with each other to arrive at new embodiments;

the above embodiments are only embodiments disclosed in the present disclosure, but the scope of the disclosure is not limited thereto, and the scope of the disclosure should be determined by the scope of the claims.

Claims

1. The utility model provides a high-efficient collator of card formula stove valve which characterized in that includes:

the feeding valve guide rail is obliquely and fixedly arranged on the machine body and is connected with the discharge end of the feeding screening device, and the clamping furnace valve slides into the buffer valve guide rail through a first valve groove on the feeding valve guide rail;

2. The efficient collator of cassette furnace valves as recited in claim 1, wherein said blow connection comprises a first blow connection, a second blow connection, and a third blow connection;

3. The efficient collator of cassette furnace valves as recited in claim 2, wherein said cassette furnace valves pass through the first, second and third blow fittings in sequence within the third valve slot.

4. The efficient finishing machine for valve of cassette furnace as claimed in claim 2 or 3, wherein the blowing pressure of the second blowing joint and the third blowing joint is respectively greater than the blowing pressure of the first blowing joint.

5. The efficient finishing machine for the valve of the cassette furnace as claimed in claim 1, further comprising a buffer valve guide rail, wherein the buffer valve guide rail is provided with a second valve slot adapted to the first valve slot.

6. The efficient collator of cassette furnace valves as recited in claim 1, wherein said upper rail mount comprises a left upper rail and a right upper rail;

the left lower guide rail is arranged below the left upper guide rail;

the right lower guide rail is arranged below the right upper guide rail.

7. The efficient collator of cassette furnace valves as recited in claim 1, wherein said feed screening means comprises:

a body;

the rotary table is rotatably arranged on the machine body;

8. The efficient finishing machine for valve of card type furnace as claimed in claim 7, wherein said screening mechanism comprises an upper baffle and a screening plate;

a rotating channel matched with a flange plate of the cassette furnace valve is arranged between the upper baffle plate and the screening plate;

9. The efficient finishing machine for the valve of the card type furnace as claimed in claim 8, wherein the screening plate is adjustably and fixedly arranged below the upper baffle plate through a screening fixing plate;

10. The efficient finishing machine for the valve of the card type furnace as claimed in claim 7, wherein the rotary disc is in transmission connection with the speed regulating motor through a transmission mechanism.