CN217381089U - Double-shaft air cylinder - Google Patents

Abstract

The utility model discloses a double-shaft cylinder, which comprises a mounting seat; the top of the mounting seat is provided with a first mounting groove along the vertical direction, one side of the mounting seat is also provided with a second mounting groove along the horizontal direction, and the inner wall of the first mounting groove is also provided with an air vent communicated with the second mounting groove; the first air receiving port and the second air receiving port communicated with the first mounting groove are further formed in the upper portion and the lower portion of one end of the mounting seat respectively, and the third air receiving port communicated with the second mounting groove is further formed in one end of the mounting seat. The utility model discloses be equipped with and be vertical distributed two sets of cylinder subassembly that bulldozes, can realize bulldozing the function of product in X, Y two directions, compare in the scheme that bulldozes that uses the ordinary cylinder of multiunit to realize X, Y direction, this cylinder can be under the condition of saving space, avoided the interference that a plurality of cylinders probably take place when the not equidirectional withdrawal of stretching out, the sensitivity is high, facilitate the use, and overall design is reasonable, compact structure, the equipment is convenient, with low costs, the practicality is strong.

Description

Double-shaft cylinder

Technical Field

The utility model relates to a cylinder technical field especially relates to a biax cylinder.

Background

In the field of mechanical automation equipment, because the moving direction of a conveying belt is not single, sometimes, the conveying belts in a plurality of moving directions can simultaneously convey products, when the products need to be pushed and pressed, a double-acting cylinder which can only realize the action in one direction obviously cannot meet the use requirement, and the conventional solution can only increase the number of cylinders. The method is inconvenient to operate and high in required cost due to the limitation of using space, interference of actions among a plurality of cylinders and increase of air consumption.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a biax cylinder, this cylinder is equipped with and is two sets of jar subassemblies that bulldoze of perpendicular distributing type, can realize bulldozing the function of product in X, Y two directions, compare in the scheme that bulldozes that uses the ordinary cylinder of multiunit to realize X, Y direction, this cylinder can be under the condition of saving space, avoided the interference that a plurality of cylinders probably take place when the not equidirectional withdrawal that stretches out, the sensitivity is high, facilitate the use, and overall design is reasonable, moreover, the steam generator is compact in structure, the equipment is convenient, and is with low costs, therefore, the clothes hanger is strong in practicability.

In order to realize the purpose, the following technical scheme is adopted:

a double-shaft cylinder comprises a mounting seat; the top of the mounting seat is provided with a first mounting groove along the vertical direction, one side of the mounting seat is further provided with a second mounting groove along the horizontal direction, and the inner wall of the first mounting groove is further provided with an air vent communicated with the second mounting groove; the upper part and the lower part of one end of the mounting seat are respectively provided with a first air receiving port and a second air receiving port which are communicated with the first mounting groove, and one end of the mounting seat is also provided with a third air receiving port which is communicated with the second mounting groove; a first pushing cylinder assembly is arranged in the first mounting groove and is also in driving connection with a first pushing plate; a second pushing cylinder assembly is arranged in the second mounting groove and is also in driving connection with a second pushing plate; the first air receiving port is used for being communicated with an air source, and the second pushing cylinder assembly is controlled through the air hole to drive the second pushing plate to extend outwards while the first pushing cylinder assembly is controlled to drive the first pushing plate to descend; the second air receiving port is used for being connected with an external air source so as to control the first pushing cylinder assembly to drive the first pushing plate to ascend; and the third air receiving port is used for receiving an external air source so as to control the second pushing cylinder assembly to drive the second pushing plate to retract.

Further, first bulldoze the board and be located the top of mount pad, the second bulldozes the board and is located one side of mount pad, and all offers the mounting hole that is used for installing locking screw on first bulldozing board and the second bulldozing the board.

Further, the first cylinder component and the second cylinder component both comprise pushing pistons, pushing rods arranged on the pushing pistons, and limiting end covers sleeved on the outer walls of one ends of the pushing rods.

Furthermore, one end of the limiting end cover is also provided with an elastic check ring, the outer wall of the limiting end cover is also sleeved with a first sealing ring, and the other end of the limiting end cover is also embedded with a first sealing element.

Further, the outer wall that bulldozes the piston still overlaps and is equipped with the second sealing washer, and the one end that bulldozes the piston still is equipped with buffer pad.

Furthermore, the other end of the pushing piston is also provided with a magnetic ring fixing seat, and a magnetic ring is further sleeved on the magnetic ring fixing seat.

Adopt above-mentioned scheme, the beneficial effects of the utility model are that:

this cylinder is equipped with and is perpendicular distributed's two sets of cylinder subassemblies that bulldoze, can realize bulldozing the function of product in X, Y two directions, compare in the scheme that bulldozes that uses the ordinary cylinder of multiunit to realize X, Y direction, this cylinder can be under the condition of saving space, has avoided the interference that a plurality of cylinders probably take place when the not equidirectional stretching out the withdrawal, the sensitivity is high, facilitate the use, and overall design is reasonable, compact structure, the equipment is convenient, with low costs, therefore, the clothes hanger is strong in practicability.

Drawings

Fig. 1 is a perspective view of the present invention;

FIG. 2 is an exploded view of FIG. 1, with the mount omitted;

fig. 3 is a perspective view of a first ram assembly of the present invention;

fig. 4 is a perspective view of the mounting base of the present invention;

wherein the figures identify the description:

1-mounting seat; 2, air vent;

3-a first air receiving port; 4-a second air receiving port;

5-a third air receiving port; 6-a first ram assembly;

7-a first pusher plate; 8-a second ram assembly;

9-a second pusher plate; 61-pushing piston;

62-a push rod; 63-limiting end covers;

64-circlip; 65-a first sealing ring;

66 — a first seal; 67 — second seal ring;

68-a cushion pad; 69-magnetic ring;

71-mounting holes; and 72, locking screws.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 4, the present invention provides a double-shaft cylinder, which includes a mounting base 1; the top of the mounting seat 1 is provided with a first mounting groove along the vertical direction, one side of the mounting seat 1 is further provided with a second mounting groove along the horizontal direction, and the inner wall of the first mounting groove is further provided with an air vent 2 communicated with the second mounting groove; the upper part and the lower part of one end of the mounting seat 1 are respectively provided with a first air receiving port 3 and a second air receiving port 4 which are communicated with the first mounting groove, and one end of the mounting seat 1 is also provided with a third air receiving port 5 which is communicated with the second mounting groove; a first pushing cylinder assembly 6 is arranged in the first mounting groove, and the first pushing cylinder assembly 6 is further connected with a first pushing plate 7 in a driving mode; a second pushing cylinder assembly 8 is arranged in the second mounting groove, and the second pushing cylinder assembly 8 is also connected with a second pushing plate 9 in a driving manner; the first air inlet 3 is used for connecting an air source, and the first pushing cylinder assembly 6 is controlled to drive the first pushing plate 7 to descend, and simultaneously the second pushing cylinder assembly 8 is controlled through the air hole 2 to drive the second pushing plate 9 to extend outwards; the second air inlet 4 is used for being connected with an external air source so as to control the first pushing cylinder assembly 6 to drive the first pushing plate 7 to ascend; the third air inlet 5 is used for connecting an external air source to control the second pushing cylinder assembly 8 to drive the second pushing plate 9 to retract.

With reference to fig. 1 to 4, in the present embodiment, two first mounting grooves are formed in the top of the mounting base 1, and are respectively located at two ends of the top of the mounting base 1, and a first pushing cylinder assembly 6 is mounted in each first mounting groove; two second mounting grooves are formed in one side of the mounting seat 1, and a second pushing cylinder assembly 8 is mounted in each second mounting groove; in this embodiment, the first cylinder subassembly 6 that bulldozes is 90 perpendicular distributed with the second cylinder subassembly 8 that bulldozes, through integrated gas circuit control, can realize pushing the function of product at X, Y two directions, compare in the scheme that bulldozes that uses multiunit ordinary cylinder to realize X, Y direction, this cylinder can be under the condition of space-saving, avoided the interference that a plurality of cylinders probably take place when different directions are stretched out and are retracted, and the sensitivity is high, facilitate the use.

In this embodiment, when the first air inlet 3 is normally connected to a low air pressure of 0.2MPa, the first cylinder assembly 6 is controlled to drive the first pressing plate 7 to descend, and the second cylinder assembly 8 is controlled to drive the second pressing plate 9 to extend outwards through the air vent 2; meanwhile, when the second air inlet 4 is constantly connected to the air pressure of 0.6Mpa, the first pressing cylinder assembly 6 drives the first pressing plate 7 to rise, and according to the calculation formula of the air pressure, the pushing force is larger than that of 0.2Mpa when the air pressure of 0.6Mpa is constantly connected, and when the third air inlet 5 is constantly connected to the air pressure of 0.2Mpa (equivalent to functioning as a spring), the second pressing cylinder assembly 8 drives the second pressing plate 9 to retract.

Preferably, the first pushing plate 7 is located above the mounting base 1, the second pushing plate 9 is located on one side of the mounting base 1, and the first pushing plate 7 and the second pushing plate 9 are both provided with mounting holes 71 for mounting locking screws 72. The mounting hole 71 is used for mounting a locking screw 72 to lock and fix the push plate.

Preferably, the first and second pushing cylinder assemblies 6 and 8 each include a pushing piston 61, a pushing rod 62 mounted on the pushing piston 61, and a limit end cover 63 sleeved on an outer wall of one end of the pushing rod 62. The stroke of the pressing piston 61 can be limited by the stopper end cap 63.

Preferably, one end of the limiting end cover 63 is further provided with an elastic retainer ring 64, the outer wall of the limiting end cover 63 is further sleeved with a first sealing ring 65, and the other end of the limiting end cover 63 is further embedded with a first sealing element 66 (an internal and external U-shaped sealing element).

Preferably, the outer wall of the pushing piston 61 is further sleeved with a second sealing ring 67, and one end of the pushing piston 61 is further provided with a buffer gasket 68.

Preferably, the other end of the pushing piston 61 is further provided with a magnetic ring fixing seat, and a magnetic ring 69 is further sleeved on the magnetic ring fixing seat.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. A double-shaft cylinder is characterized by comprising a mounting seat; the top of the mounting seat is provided with a first mounting groove along the vertical direction, one side of the mounting seat is further provided with a second mounting groove along the horizontal direction, and the inner wall of the first mounting groove is further provided with an air vent communicated with the second mounting groove; the upper part and the lower part of one end of the mounting seat are respectively provided with a first air receiving port and a second air receiving port which are communicated with the first mounting groove, and one end of the mounting seat is also provided with a third air receiving port which is communicated with the second mounting groove; a first pushing cylinder assembly is arranged in the first mounting groove and is also in driving connection with a first pushing plate; a second pushing cylinder assembly is arranged in the second mounting groove and is also in driving connection with a second pushing plate; the first air receiving port is used for being communicated with an air source, and the second pushing cylinder assembly is controlled through the air hole to drive the second pushing plate to extend outwards while the first pushing cylinder assembly is controlled to drive the first pushing plate to descend; the second air receiving port is used for being connected with an external air source so as to control the first pushing cylinder assembly to drive the first pushing plate to ascend; and the third air receiving port is used for receiving an external air source so as to control the second pushing cylinder assembly to drive the second pushing plate to retract.

2. The double-shaft cylinder according to claim 1, wherein the first pushing plate is located above the mounting seat, the second pushing plate is located on one side of the mounting seat, and mounting holes for mounting locking screws are formed in the first pushing plate and the second pushing plate.

3. The double-shaft cylinder according to claim 1, wherein the first pushing cylinder assembly and the second pushing cylinder assembly each comprise a pushing piston, a pushing rod mounted on the pushing piston, and a limiting end cover sleeved on an outer wall of one end of the pushing rod.

4. The double-shaft cylinder according to claim 3, wherein one end of the limiting end cover is further provided with an elastic check ring, the outer wall of the limiting end cover is further sleeved with a first sealing ring, and the other end of the limiting end cover is further embedded with a first sealing element.

5. The double-shaft cylinder according to claim 4, wherein a second sealing ring is further sleeved on the outer wall of the pushing piston, and a buffer gasket is further arranged at one end of the pushing piston.

6. The dual-shaft cylinder as claimed in claim 5, wherein a magnetic ring holder is further disposed at the other end of the push piston, and a magnetic ring is further sleeved on the magnetic ring holder.

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