CN214304203U - Efficient continuous feeding system - Google Patents

Abstract

The utility model discloses a high-efficiency continuous feeding system, which comprises a base plate, a first cylinder sleeve body, a second cylinder sleeve body, a first double-acting cylinder and a second double-acting cylinder, wherein the first cylinder sleeve body and the second cylinder sleeve body are arranged on the base plate side by side, and the first double-acting cylinder and the second double-acting cylinder are arranged on the base plate side by side and are correspondingly arranged behind the first cylinder sleeve body and the second cylinder sleeve body; the first cylinder sleeve body and the second cylinder sleeve body are respectively internally provided with a push plate capable of reciprocating, and respective piston rods of the first double-acting cylinder and the second double-acting cylinder are respectively connected with the push plates in the first cylinder sleeve body and the second cylinder sleeve body through a first push rod and a second push rod correspondingly and are used for driving the push plates to reciprocate. The utility model discloses a double-cylinder cover body sets up with the cooperation of double cylinder, has realized incessant continuation, stable feed, improvement production machining efficiency to the viscosity liquid.

Description

Efficient continuous feeding system

Technical Field

The utility model relates to an in injecting glue equipment field, especially relate to a high-efficient continuous feed system.

Background

In fluid conveying equipment, the selected fluid viscosity is closely related to fluid conveying operation, for medium and low viscosity fluid, the fluid is usually stored in a material tank, and the fluid is usually conveyed by directly pumping the fluid from a material cylinder to a corresponding metering unit by adopting a pneumatic diaphragm pump or an electric pump; for medium and high viscosity fluids, diaphragm pumps and electric pumps have difficulty handling high viscosity fluid materials. In the prior art, because the medium-low viscosity glue is directly extracted by adopting a pneumatic diaphragm pump or an electric pump, the liquid supply pressure and the glue tightness are difficult to ensure, and in addition to the corrosivity of materials, the maintenance cost is higher.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a high-efficient continuous feeding system, this high-efficient continuous feeding system pass through the double-cylinder cover body and set up with the cooperation of double-cylinder, realized incessant continuation, stable feed, improvement production machining efficiency to the viscosity liquid.

In order to achieve the above purpose, the utility model adopts the technical scheme that: a high-efficiency continuous feeding system comprises a base plate, a first cylinder sleeve body, a second cylinder sleeve body, a first double-acting cylinder and a second double-acting cylinder, wherein the first cylinder sleeve body and the second cylinder sleeve body are arranged on the base plate side by side, and the first double-acting cylinder and the second double-acting cylinder are arranged on the base plate side by side and are correspondingly arranged behind the first cylinder sleeve body and the second cylinder sleeve body;

the first cylinder sleeve body and the second cylinder sleeve body are respectively internally provided with a push plate capable of reciprocating, and piston rods of the first double-acting cylinder and the second double-acting cylinder are respectively connected with the push plates in the first cylinder sleeve body and the second cylinder sleeve body correspondingly through a first push rod and a second push rod and are used for driving the push plates to reciprocate;

the first cylinder sleeve body and the second cylinder sleeve body are respectively provided with a feeding hole and a discharging hole, the feeding holes of the first cylinder sleeve body and the second cylinder sleeve body are respectively provided with a first inlet valve and a second inlet valve, the discharging holes of the first cylinder sleeve body and the second cylinder sleeve body are respectively provided with a first outlet valve and a second outlet valve, the first inlet valve and the second inlet valve are used for being connected with the glue storage unit, the first outlet valve and the second outlet valve are used for being connected with the glue dispensing valve, and the first outlet valve and the second outlet valve are in through connection;

when a first push rod connected with the first double-acting cylinder pushes a push plate in a first cylinder sleeve to move forwards, the first outlet valve and the second inlet valve are in an open state, a second push rod connected with the second double-acting cylinder pulls the push plate in a second cylinder sleeve to move backwards, and the second outlet valve and the first inlet valve are in a closed state;

when a first push rod connected with the first double-acting cylinder pulls a push plate positioned in the first cylinder sleeve body to move backwards, the first outlet valve and the second inlet valve are in a closed state, a second push rod connected with the second double-acting cylinder pushes the push plate positioned in the second cylinder sleeve body to move forwards, and the second outlet valve and the first inlet valve are in an open state.

The further improved scheme in the technical scheme is as follows:

1. in the above scheme, one end of each of the first inlet valve and the second inlet valve is connected with the glue storage unit through a glue inlet pipe.

2. In the above scheme, the first inlet valve and the second inlet valve are pneumatic valves.

3. In the above scheme, the first double acting cylinder and the second double acting cylinder are respectively provided with a transparent oil cup assembly.

Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage:

the utility model discloses high-efficient continuous feed system, it sets up through the double-cylinder cover body and the cooperation of double-cylinder, has realized incessant continuation, stable, the even feed of viscosity liquid, improves production machining efficiency.

Drawings

FIG. 1 is a schematic structural view of the high-efficiency continuous feeding system of the present invention;

figure 2 is the utility model discloses high-efficient continuous feed system's section structure sketch map.

In the above drawings: 1. a substrate; 2. a first cylinder liner body; 3. a second cylinder jacket body; 4. a first double acting cylinder; 5. a second double acting cylinder; 11. a first inlet valve; 12. a second inlet valve; 13. a first outlet valve; 14. a second outlet valve; 161. a first push rod; 162. a second push rod; 17. a piston rod.

Detailed Description

In the description of this patent, it is noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, as they may be fixedly connected, detachably connected, or integrally connected, for example; 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 meaning of the above terms in this patent may be specifically understood by those of ordinary skill in the art.

Example 1: a high-efficiency continuous feeding system comprises a base plate 1, a first cylinder sleeve body 2, a second cylinder sleeve body 3, a first double-acting cylinder 4 and a second double-acting cylinder 5, wherein the first cylinder sleeve body 2 and the second cylinder sleeve body 3 are arranged on the base plate 1 side by side, and the first double-acting cylinder 4 and the second double-acting cylinder 5 are arranged on the base plate 1 side by side and are correspondingly arranged behind the first cylinder sleeve body 2 and the second cylinder sleeve body 3;

the first cylinder sleeve body 2 and the second cylinder sleeve body 3 are respectively internally provided with a push plate 15 capable of reciprocating, and the piston rods 17 of the first double-acting cylinder 4 and the second double-acting cylinder 5 are respectively connected with the push plates 15 in the first cylinder sleeve body 2 and the second cylinder sleeve body 3 correspondingly through a first push rod 161 and a second push rod 162 and are used for driving the push plates 15 to reciprocate;

the glue dispensing device is characterized in that a feed inlet and a discharge outlet are respectively arranged on the first cylinder sleeve body 2 and the second cylinder sleeve body 3, a first inlet valve 11 and a second inlet valve 12 are respectively arranged on the feed inlet of the first cylinder sleeve body 2 and the feed inlet of the second cylinder sleeve body 3, a first outlet valve 13 and a second outlet valve 14 are respectively arranged on the discharge outlet of the first cylinder sleeve body 2 and the discharge outlet of the second cylinder sleeve body 3, the first inlet valve 11 and the second inlet valve 12 are used for being connected with a glue storage unit, the first outlet valve 13 and the second outlet valve 14 are used for being connected with a glue dispensing valve, and the first outlet valve 13 and the second outlet valve 14 are connected in a through manner;

when the first push rod 161 connected with the first double acting cylinder 4 pushes the push plate 15 in the first cylinder body 2 to move forward, the first outlet valve 13 and the second inlet valve 12 are in an open state, the second push rod 162 connected with the second double acting cylinder 5 pulls the push plate 15 in the second cylinder body 3 to move backward, and the second outlet valve 14 and the first inlet valve 11 are in a closed state;

when the first push rod 161 connected to the first double acting cylinder 4 pulls the push plate 15 located in the first cylinder housing body 2 to move backward, the first outlet valve 13 and the second inlet valve 12 are in a closed state, the second push rod 162 connected to the second double acting cylinder 5 pushes the push plate 15 located in the second cylinder housing body 3 to move forward, and the second outlet valve 14 and the first inlet valve 11 are in an open state.

One end of each of the first inlet valve 11 and the second inlet valve 12 is connected with the glue storage unit through a glue inlet pipe; the first inlet valve 11 and the second inlet valve 12 are pneumatic valves.

Example 2: a high-efficiency continuous feeding system comprises a base plate 1, a first cylinder sleeve body 2, a second cylinder sleeve body 3, a first double-acting cylinder 4 and a second double-acting cylinder 5, wherein the first cylinder sleeve body 2 and the second cylinder sleeve body 3 are arranged on the base plate 1 side by side, and the first double-acting cylinder 4 and the second double-acting cylinder 5 are arranged on the base plate 1 side by side and are correspondingly arranged behind the first cylinder sleeve body 2 and the second cylinder sleeve body 3;

the first cylinder sleeve body 2 and the second cylinder sleeve body 3 are respectively internally provided with a push plate 15 capable of reciprocating, and the piston rods 17 of the first double-acting cylinder 4 and the second double-acting cylinder 5 are respectively connected with the push plates 15 in the first cylinder sleeve body 2 and the second cylinder sleeve body 3 correspondingly through a first push rod 161 and a second push rod 162 and are used for driving the push plates 15 to reciprocate;

the glue dispensing device is characterized in that a feed inlet and a discharge outlet are respectively arranged on the first cylinder sleeve body 2 and the second cylinder sleeve body 3, a first inlet valve 11 and a second inlet valve 12 are respectively arranged on the feed inlet of the first cylinder sleeve body 2 and the feed inlet of the second cylinder sleeve body 3, a first outlet valve 13 and a second outlet valve 14 are respectively arranged on the discharge outlet of the first cylinder sleeve body 2 and the discharge outlet of the second cylinder sleeve body 3, the first inlet valve 11 and the second inlet valve 12 are used for being connected with a glue storage unit, the first outlet valve 13 and the second outlet valve 14 are used for being connected with a glue dispensing valve, and the first outlet valve 13 and the second outlet valve 14 are connected in a through manner;

when the first push rod 161 connected with the first double acting cylinder 4 pushes the push plate 15 in the first cylinder body 2 to move forward, the first outlet valve 13 and the second inlet valve 12 are in an open state, the second push rod 162 connected with the second double acting cylinder 5 pulls the push plate 15 in the second cylinder body 3 to move backward, and the second outlet valve 14 and the first inlet valve 11 are in a closed state;

when the first push rod 161 connected with the first double acting cylinder 4 pulls the push plate 15 in the first cylinder body 2 to move backwards, the first outlet valve 13 and the second inlet valve 12 are in a closed state, the second push rod 162 connected with the second double acting cylinder 5 pushes the push plate 15 in the second cylinder body 3 to move forwards, and the second outlet valve 14 and the first inlet valve 11 are in an open state;

the control of the inlet valve and the outlet valve adopts a spring type bellows telescopic structure, and the valve is quickly changed from an opening state to a closing state by means of the telescopic structure of the cylinder;

the power system and the cylinder sleeve body are separated to form independent modules, so that the maintenance is easy.

The first double-acting cylinder 4 and the second double-acting cylinder 5 are respectively provided with a transparent oil cup assembly, so that the piston can be lubricated, and when a piston sealing ring leaks, liquid can leak into the oil cup through the damaged sealing ring, and a maintainer can be conveniently notified to maintain.

The utility model discloses high-efficient continuous feed system, it sets up through the double-cylinder cover body and the cooperation of double-cylinder, has realized incessant continuation, stable, the even feed of viscosity liquid, improves production machining efficiency.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (4)

1. An efficient continuous feed system, comprising: the double-acting cylinder type hydraulic cylinder comprises a base plate (1), a first cylinder sleeve body (2), a second cylinder sleeve body (3), a first double-acting cylinder (4) and a second double-acting cylinder (5), wherein the first cylinder sleeve body (2) and the second cylinder sleeve body (3) are arranged on the base plate (1) side by side, and the first double-acting cylinder (4) and the second double-acting cylinder (5) are arranged on the base plate (1) side by side and are correspondingly arranged behind the first cylinder sleeve body (2) and the second cylinder sleeve body (3);

the first cylinder sleeve body (2) and the second cylinder sleeve body (3) are respectively internally provided with a push plate (15) capable of reciprocating, and respective piston rods (17) of the first double-acting cylinder (4) and the second double-acting cylinder (5) are respectively correspondingly connected with the push plates (15) in the first cylinder sleeve body (2) and the second cylinder sleeve body (3) through a first push rod (161) and a second push rod (162) and are used for driving the push plates (15) to reciprocate;

the glue dispensing device is characterized in that a feed inlet and a discharge outlet are respectively arranged on the first cylinder sleeve body (2) and the second cylinder sleeve body (3), a first inlet valve (11) and a second inlet valve (12) are respectively arranged on the respective feed inlets of the first cylinder sleeve body (2) and the second cylinder sleeve body (3), a first outlet valve (13) and a second outlet valve (14) are respectively arranged on the respective discharge outlets of the first cylinder sleeve body (2) and the second cylinder sleeve body (3), the first inlet valve (11) and the second inlet valve (12) are used for being connected with a glue storage unit, the first outlet valve (13) and the second outlet valve (14) are used for being connected with a glue dispensing valve, and the first outlet valve (13) and the second outlet valve (14) are connected in a run-through manner;

when a first push rod (161) connected with the first double-acting cylinder (4) pushes a push plate (15) in a first cylinder sleeve body (2) to move forwards, the first outlet valve (13) and the second inlet valve (12) are in an open state, a second push rod (162) connected with the second double-acting cylinder (5) pulls the push plate (15) in a second cylinder sleeve body (3) to move backwards, and the second outlet valve (14) and the first inlet valve (11) are in a closed state;

when a first push rod (161) connected with the first double-acting cylinder (4) pulls a push plate (15) located in the first cylinder sleeve body (2) to move backwards, the first outlet valve (13) and the second inlet valve (12) are in a closed state, a second push rod (162) connected with the second double-acting cylinder (5) pushes the push plate (15) located in the second cylinder sleeve body (3) to move forwards, and the second outlet valve (14) and the first inlet valve (11) are in an open state.

2. The high efficiency continuous feed system of claim 1, wherein: one end of each of the first inlet valve (11) and the second inlet valve (12) is connected with the glue storage unit through a glue inlet pipe.

3. The high efficiency continuous feed system of claim 1, wherein: the first inlet valve (11) and the second inlet valve (12) are pneumatic valves.

4. The high efficiency continuous feed system of claim 1, wherein: and the first double-acting cylinder (4) and the second double-acting cylinder (5) are respectively provided with a transparent oil cup assembly.

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