CN112847588A - Accurate control machine of gaseous exchange of blanket guillootine and transmission - Google Patents

Abstract

The invention discloses an accurate control machine for gas exchange and transmission of a blanket cutting machine, which comprises a first shell and a second shell, wherein a first cavity and a second cavity are arranged in the first shell, a pressing cover is sleeved at the end part of the first shell, a first push rod is arranged on the pressing cover, the second cavity is connected with a second gas pipe through a first gas transmission channel, the second gas pipe is connected with a winding shaft with a pneumatic control motor, a third cavity is arranged in the second shell, a fixing sleeve and a boosting plate are arranged in the third cavity, a second push rod is arranged on the boosting plate, a fourth cavity is communicated with the left side of the third cavity, a third push rod is arranged in the fourth cavity, a first cavity and a second cavity are arranged on the third push rod, the fourth cavity is communicated with a fifth cavity through a horizontal channel, and the fifth cavity is communicated with an auxiliary cavity. The invention can pre-tighten the blanket in the cutting process, improves the shearing precision of the blanket, is convenient to control the pre-tightening time, greatly reduces the labor intensity of manual operation and is convenient for the streamline processing of the blanket.

Description

Accurate control machine of gaseous exchange of blanket guillootine and transmission

Technical Field

The invention relates to a precise control machine for gas exchange and transmission of a blanket cutting machine.

Background

The woollen blanket among the prior art needs artifical one section to be tailor when tailorring, wastes time and energy, and the woollen blanket can receive tensile influence at the in-process of tailorring in addition, produces certain tensile volume, consequently need carry out the pretension to the woollen blanket before the woollen blanket is tailor, presss from both sides the woollen blanket, but the pretension force can not be too big, and the pretension time also can not be very long.

Disclosure of Invention

The invention aims to provide a technical scheme of a blanket cutting machine for accurately controlling gas exchange and transmission aiming at the defects in the prior art, which can pre-tighten a blanket in the cutting process, improves the cutting precision of the blanket, is convenient to control the pre-tightening time, greatly reduces the labor intensity of manual operation and is convenient for the production line processing of the blanket.

In order to solve the technical problems, the invention adopts the following technical scheme:

the utility model provides a gaseous exchange of blanket guillootine and accurate control machine of transmission which characterized in that: the first casing is arranged at the end part of the second casing, a first cavity and a second cavity are arranged in the first casing, a pressing cover is sleeved at the end part of the first casing, a first push rod is arranged on the pressing cover, the first push rod horizontally penetrates through the first cavity and extends into the second cavity, the first cavity is communicated with the second cavity, the first push rod can be driven to move leftwards by pressing the pressing cover, the first cavity is communicated with the second cavity, compressed air in the first cavity can conveniently enter the second cavity, the second cavity is connected with a second air conveying pipe through a first air conveying channel, the second air conveying pipe is connected with a winding shaft with a pneumatic control motor, air pressure change in the second cavity can be transmitted to the pneumatic control motor through the second air conveying pipe, the winding shaft is driven to rotate through the pneumatic control motor to pre-tighten a blanket, a first connecting pipe is arranged on the first casing, a second connecting pipe is arranged on the second casing, the first linking pipe is communicated with the second linking pipe through the placing cavity, a diaphragm is arranged in the placing cavity, when the air pressure in the second cavity is increased, the gas can be input into the second linking pipe through the first linking pipe through the diaphragm, the diaphragm can accelerate the gas moving leftwards and decelerate the gas moving rightwards, so that a time difference is generated, a third cavity is arranged in the second shell, a fixed sleeve and a boosting plate are arranged in the third cavity, the fixed sleeve is arranged at one side close to the second linking pipe, the boosting plate is connected in the third cavity through a flexible sealing cover, the flexible sealing cover is arranged at one side close to the fixed sleeve, a second push rod is arranged on the boosting plate, after the gas in the second linking pipe is input into the flexible sealing cover through the fixed sleeve, the boosting plate can be driven to move leftwards, so that the second push rod is driven to be close to the third push rod until the end part of the third push rod is sealed, and the left side of the third push rod is driven to, the air flow between a first cavity in a third push rod and the third cavity is separated, the left side of the third cavity is communicated with a fourth cavity, the fourth cavity is connected with a fourth air conveying pipe through a sixth air conveying channel through a second negative pressure channel, the fourth air conveying pipe is connected with external negative pressure equipment, the right side of the third push rod in the fourth cavity is consistently in a negative pressure state and is convenient for the third push rod to move left and right, the fourth cavity is provided with a second air conveying channel, the fourth cavity is internally provided with a third push rod, the third push rod is provided with a first cavity and a second cavity, the right end of the first cavity is communicated with the third cavity through a first vent hole, the other end of the first cavity is provided with an opening which is convenient for air circulation, the second cavity of the third push rod is connected with the inner wall of the fourth cavity through a spring, the fourth cavity is communicated with a fifth cavity through a horizontal channel, the horizontal channel is communicated with the sixth air conveying channel through the first negative pressure channel, a boosting block is arranged in the fifth cavity, the boosting block can divide the fifth cavity into a left cavity and a right cavity, the left cavity is always communicated with the external atmosphere and is in a positive pressure state, positive pressure and negative pressure switching can be performed in the right cavity, the left and right movement of the boosting block is facilitated, the fifth cavity is communicated with the auxiliary cavity, the auxiliary cavity is connected with a fourth gas transmission channel and a fifth gas transmission channel, a fourth push rod is arranged at the end part of the boosting block and is connected into the auxiliary cavity through a spring, the boosting block can drive the fourth push rod to move left and right, the opening or closing of the fifth gas transmission channel is facilitated, the first cavity, the second gas transmission channel and the fifth gas transmission channel are all connected with external compressed air equipment through a third gas transmission pipe, the fourth gas transmission channel is connected with an air cylinder through a first gas transmission pipe, and the clamping and the positioning of the blanket are realized through the air; through the design of above-mentioned structure, can carry out the pretension to the woollen blanket at the in-process of tailorring, improve the precision that the woollen blanket was tailor, be convenient for simultaneously control pretension time, greatly reduced manual operation's intensity of labour, the assembly line processing of the woollen blanket of being convenient for.

Further, a second vent hole and a third vent hole are formed in the diaphragm, the second vent hole is located in the center of the diaphragm, the third vent hole is symmetrically formed in two sides of the second vent hole, the second vent hole and the third vent hole are located on one side close to the first linking pipe, when gas flows from the first linking pipe to the second linking pipe, the second vent hole and the third vent hole are both opened, when gas flows from the second linking pipe to the first linking pipe, the gas only flows from the second vent hole, the third vent hole is closed on the first shell in a fitting mode, time difference is convenient to generate, and control accuracy is improved.

Further, the third vent hole having a larger aperture than the second vent hole may increase the speed at which the gas flows from the first adapter tube to the second adapter tube, and the gas flows as slowly as possible when flowing from the second adapter tube to the first adapter tube.

Further, the second chamber is equipped with first breather pipe, and first breather pipe intercommunication atmosphere makes the press cover reset in the outside atmosphere of being convenient for gets into the second chamber.

Furthermore, the fourth gas transmission pipe is a negative pressure pipe, so that negative pressure can be conveniently input into the fourth cavity and the fifth cavity respectively, the movement flexibility of the third push rod is improved, and the control precision is improved.

Furthermore, a third gas transmission channel is arranged on the fifth cavity and communicated with the atmosphere, so that the gas pressure in the fifth cavity can be conveniently adjusted.

Furthermore, the one end of second push rod passes through spring coupling in fixed sleeve's inboard, and the other end inboard of second push rod supports the terminal surface of boosting board through the spring, can make the second push rod can receive the elastic force effect of spring again when receiving atmospheric pressure removal, improves the control flexibility to the gas circuit.

Furthermore, the horizontal channel and the first cavity are positioned on the same horizontal straight line, so that the circulation of gas between the horizontal channel and the first cavity is facilitated.

Due to the adoption of the technical scheme, the invention has the following beneficial effects:

through the design of above-mentioned structure, can carry out the pretension to the woollen blanket at the in-process of tailorring, improve the precision that the woollen blanket was tailor, be convenient for simultaneously control pretension time, greatly reduced manual operation's intensity of labour, the assembly line processing of the woollen blanket of being convenient for.

Drawings

The invention will be further described with reference to the accompanying drawings in which:

FIG. 1 is a schematic diagram of a gas exchange and transport precision control machine for a blanket cutting machine according to the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is an enlarged view of a portion of FIG. 1 at B;

FIG. 4 is an enlarged view of a portion of FIG. 3 at E;

FIG. 5 is an enlarged view of a portion of FIG. 1 at C;

fig. 6 is a partial enlarged view of fig. 1 at D.

In the figure: 1-a cylinder; 2-a winding shaft; 3-a first gas pipe; 4-a second gas conveying pipe; 5-a first housing; 6-a second shell; 7-a third gas pipe; 8-a fourth gas delivery pipe; 9-pressing the cover; 10-a first push rod; 11-a first chamber; 12-a second chamber; 13-a fixed sleeve; 14-a boosting plate; 15-a second push rod; 16-a first vent pipe; 17-a first gas transmission channel; 18-a third chamber; 19-a second vent; 20-a third push rod; 21-a first cavity; 22-a first vent; 23-a first adapter tube; 24-a second adapter tube; 25-placing the cavity; 26-a membrane; 27-a second vent; 28-a third vent; 29-a fourth chamber; 30-a second gas transmission channel; 31-a second cavity; 32-a fifth chamber; 33-a third gas transmission channel; 34-a boosting block; 35-horizontal channel; 36-a first negative pressure channel; 37-a second negative pressure channel; 38-a fourth gas delivery channel; 39-a fourth push rod; 40-a fifth gas transmission channel; 41-sixth gas transmission channel; 42-a flexible sealing cover; 43-auxiliary chamber.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

It is noted that the terms first, second and the like in the description and in the claims, and in the drawings, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. Furthermore, the terms "comprising" and "having," as well as any variations thereof, are intended to cover non-exclusive inclusions.

As shown in fig. 1 to 6, the precise control machine for gas exchange and transmission of a carpet cutting machine according to the present invention comprises a first housing 5 and a second housing 6, the first housing 5 is disposed at an end of the second housing 6, a first chamber 11 and a second chamber 12 are disposed in the first housing 5, a pressing cover 9 is sleeved at the end of the first housing 5, a first push rod 10 is disposed on the pressing cover 9, the first push rod 10 horizontally penetrates the first chamber 11 and extends into the second chamber 12, the first chamber 11 is communicated with the second chamber 12, the pressing cover 9 is pressed to drive the first push rod 10 to move leftward, so that the first chamber 11 is communicated with the second chamber 12, compressed air in the first chamber 11 conveniently enters the second chamber 12, the second chamber 12 is connected with the second air pipe 4 through a first air transmission channel 17, the second air pipe 4 is connected with a winding shaft 2 having an air control motor, and air pressure change in the second chamber 12 can be transmitted to the air control motor through the second air pipe 4, the air control motor drives the winding shaft 2 to rotate to pre-tighten the blanket. The second chamber 12 is provided with a first vent pipe 16, and the first vent pipe 16 is communicated with the atmosphere, so that the outside atmosphere can enter the second chamber 12 conveniently, and the pressing cover 9 can be reset.

The first shell 5 is provided with a first connecting pipe 23, the second shell 6 is provided with a second connecting pipe 24, the first connecting pipe 23 is communicated with the second connecting pipe 24 through a placing cavity 25, a diaphragm 26 is arranged in the placing cavity 25, when the air pressure in the second chamber 12 is increased, the air is input into the second connecting pipe 24 through the first connecting pipe 23 via the diaphragm 26, the diaphragm 26 can accelerate the air moving leftwards and decelerate the air moving rightwards, so as to generate time difference, the diaphragm 26 is provided with a second vent 27 and a third vent 28, the second vent 27 is positioned at the center of the diaphragm 26, the third vent 28 is symmetrically arranged at two sides of the second vent 27, the second vent 27 and the third vent 28 are both positioned at one side close to the first connecting pipe 23, when the air flows from the first connecting pipe 23 to the second connecting pipe 24, the second vent 27 and the third vent 28 are both opened, when the gas flows from the second connecting pipe 24 to the first connecting pipe 23, the gas flows only from the second vent hole 27, and the third vent hole 28 is closed by being attached to the first housing 5, so that a time difference is generated, and the control precision is improved. The third vent hole 28 having a larger hole diameter than the second vent hole 27 may increase the velocity of the gas flowing from the first adapter tube 23 to the second adapter tube 24, and flow as slowly as possible when the gas flows from the second adapter tube 24 to the first adapter tube 23.

The second housing 6 is internally provided with a third chamber 18, the third chamber 18 is internally provided with a fixed sleeve 13 and a boosting plate 14, the fixed sleeve 13 is arranged at one side close to the second linking pipe 24, the boosting plate 14 is connected in the third chamber 18 through a flexible sealing cover 42, the flexible sealing cover 42 is positioned at one side close to the fixed sleeve 13, the boosting plate 14 is provided with a second push rod 15, after the gas in the second linking pipe 24 is input into the flexible sealing cover 42 through the fixed sleeve 13, the boosting plate 14 can be driven to move leftwards, the second push rod 15 is further driven to be close to the third push rod 20 until the end part of the third push rod 20 is sealed, the left side of the third push rod 20 is simultaneously driven to abut against the inner wall at the left side of the fourth chamber 29, and the gas flow between the first chamber 21 in the third push rod 20 and the third chamber 18 is separated. One end of the second push rod 15 is connected to the inner side of the fixed sleeve 13 through a spring, the inner side of the other end of the second push rod 15 abuts against the end face of the boosting plate 14 through the spring, so that the second push rod 15 can be under the elastic action of the spring when moving under air pressure, and the control flexibility of an air path is improved.

The left side of the third chamber 18 is communicated with a fourth chamber 29, the fourth chamber 29 is connected with a fourth air conveying pipe 8 through a second negative pressure channel 37 via a sixth air conveying channel 41, the fourth air conveying pipe 8 is connected with external negative pressure equipment, the right side of the third push rod 20 in the fourth chamber 29 is consistently in a negative pressure state, the third push rod 20 is convenient to move left and right, the fourth air conveying pipe 8 is a negative pressure pipe, negative pressure is convenient to input into the fourth chamber 29 and the fifth chamber 32 respectively, the flexibility of movement of the third push rod 20 is improved, and the control precision is further improved. The fourth cavity 29 is provided with a second gas transmission channel 30, a third push rod 20 is arranged in the fourth cavity 29, the third push rod 20 is provided with a first cavity 21 and a second cavity 31, the right end of the first cavity 21 is communicated with the third cavity 18 through a first vent hole 22, the other end of the first cavity 21 is provided with an opening, so that gas can flow through the opening conveniently, and the second cavity 31 of the third push rod 20 is connected with the inner wall of the fourth cavity 29 through a spring.

The fourth cavity 29 is communicated with the fifth cavity 32 through a horizontal channel 35, the horizontal channel 35 is communicated with a sixth air transmission channel 41 through a first negative pressure channel 36, a boosting block 34 is arranged in the fifth cavity 32, the boosting block 34 can divide the fifth cavity 32 into a left cavity and a right cavity, the left cavity is communicated with the external atmosphere all the time and is in a positive pressure state, positive pressure and negative pressure can be switched in the right cavity, the boosting block 34 can move left and right conveniently, a third air transmission channel 33 is arranged on the fifth cavity 32, the third air transmission channel 33 is communicated with the atmosphere, and the air pressure in the fifth cavity 32 can be adjusted conveniently. The horizontal channel 35 and the first cavity 21 are located on the same horizontal straight line, so that the gas can be conveniently circulated between the horizontal channel 35 and the first cavity 21.

The fifth chamber 32 is communicated with an auxiliary chamber 43, the auxiliary chamber 43 is connected with a fourth gas transmission channel 38 and a fifth gas transmission channel 40, a fourth push rod 39 is arranged at the end part of the boosting block 34, the fourth push rod 39 is connected in the auxiliary chamber 43 through a spring, the boosting block 34 can drive the fourth push rod 39 to move left and right, so that the fifth gas transmission channel 40 can be conveniently opened or closed, the first chamber 11, the second gas transmission channel 30 and the fifth gas transmission channel 40 are all connected with external compressed air equipment through a third gas transmission pipe 7, the fourth gas transmission channel 38 is connected with the cylinder 1 through a first gas transmission pipe 3, and the blanket is clamped and positioned through the cylinder 1; through the design of above-mentioned structure, can carry out the pretension to the woollen blanket at the in-process of tailorring, improve the precision that the woollen blanket was cuted, be convenient for simultaneously control pretension time, greatly reduced manual operation's intensity of labour, the assembly line processing of the woollen blanket of being convenient for.

The working principle of the invention is as follows:

after the pressing cover 9 is pressed down, the first push rod 10 is pushed forward in a linkage manner, compressed air in the third air delivery pipe 7 enters the first chamber 11, the first push rod 10 moves leftwards, the compressed air in the first chamber 11 enters the second chamber 12, the compressed air enters the first connecting pipe 23 to push the diaphragm 26 open, the compressed air enters the fixed sleeve 13 through the second vent hole 27 in the middle of the diaphragm 26 and the third vent holes 28 on the upper side and the lower side to push the boosting plate 14 to push forwards, the boosting plate 14 drives the second push rod 15 to push forwards until the first vent hole 22 on the third push rod 20 is blocked by the second push rod 15, the compressed air guided from the second air delivery passage 30 in the first cavity 21 and the second cavity 31 on the third push rod 20, negative pressure in the fourth air delivery pipe 8 is introduced into the first negative pressure passage 36 and the second negative pressure passage 37, and the third push rod 20 is pushed to the right at the beginning, the left side of the third push rod 20 is provided with a gap, the pressure in the second air transmission channel 30 is high, the third push rod 20 is pushed to the right, the boosting plate 14 pushes the left side and then plugs the first vent hole 22 of the third push rod 20, meanwhile, the third push rod 20 pushes the left side, the second cavity 31 is closed, compressed air in the fifth cavity 32 cannot enter the second cavity 31, positive pressure in the fifth cavity 32 is changed into negative pressure, the negative pressure is input through the fourth air transmission pipe 8, the boosting block 34 pushes the left side when the boosting block 34 starts, after the fifth cavity 32 is changed into negative pressure, the boosting block 34 moves to the right, the fifth air transmission channel 40 is opened, then air enters the fourth air transmission channel 38, and the fourth air transmission channel 38 controls the work of the air cylinder 1 through the first air transmission pipe 3.

The pressing cover 9 bounces back after being pressed, the first cavity 11 is closed, the first connecting pipe 23, the second connecting pipe 24 and the fixed sleeve 13 are still in positive pressure, the diaphragm 26 between the first connecting pipe 23 and the second connecting pipe 24 covers, the third vent hole 28 is closed, only the second vent hole 27 is opened, the pressure in the first cavity 11 is firstly discharged, pre-tightening is finished, the pressure in the fixed sleeve 13 is slowly discharged into the second cavity 12 and is discharged through the first vent pipe 16, the moving speed of the boosting plate 14 and the flexible sealing cover 42 is reduced, the second push rod 15 is pulled to the right, the external atmosphere enters the third cavity 18 through the second vent pipe 19, the first cavity 21 of the third push rod 20 becomes positive pressure, the third push rod 20 moves to the right, the right cavity of the fifth cavity 32 becomes positive pressure, the pushing block is closed, and meanwhile, the boosting plate 14 and the boosting block 34 realize a time difference, so that the time can be conveniently controlled, is beneficial to cutting.

The above is only a specific embodiment of the present invention, but the technical features of the present invention are not limited thereto. Any simple variations, equivalent substitutions or modifications based on the present invention to achieve substantially the same technical effects are within the scope of the present invention.

Claims (8)

1. The utility model provides a gaseous exchange of blanket guillootine and accurate control machine of transmission which characterized in that: the pneumatic-control type pneumatic-control, the fixed sleeve is arranged on one side close to the second linking pipe, the boosting plate is connected in the third chamber through a flexible sealing cover, the flexible sealing cover is arranged on one side close to the fixed sleeve, a second push rod is arranged on the boosting plate, the left side of the third chamber is communicated with a fourth chamber, the fourth chamber is connected with a fourth gas pipe through a sixth gas transmission channel through a second negative pressure channel, the fourth gas pipe is connected with external negative pressure equipment, the fourth chamber is provided with a second gas transmission channel, a third push rod is arranged in the fourth chamber, a first cavity and a second cavity are arranged on the third push rod, the right end of the first cavity is communicated with the third chamber through a first vent hole, the other end of the first cavity is provided with an opening, and the second cavity of the third push rod is connected with the inner wall of the fourth chamber through a spring, the fourth cavity passes through horizontal passage intercommunication fifth cavity, horizontal passage passes through first negative pressure passageway intercommunication sixth gas transmission passageway, be equipped with the boosting piece in the fifth cavity, the auxiliary chamber of fifth cavity intercommunication, auxiliary chamber is connected with fourth gas transmission passageway and fifth gas transmission passageway, the tip of boosting piece is equipped with the fourth push rod, the fourth push rod passes through spring coupling and is in auxiliary chamber, first cavity second gas transmission passageway with fifth gas transmission passageway all connects outside compressed air equipment through the third gas-supply pipe, the cylinder is connected through first gas-supply pipe to the fourth gas transmission passageway, through the cylinder realizes the tight location of clamp to the woollen blanket.

2. The blanket clipper gas exchange and transport precision control machine of claim 1, wherein: the diaphragm is provided with a second vent hole and a third vent hole, the second vent hole is located in the center of the diaphragm, the third vent hole is symmetrically arranged on two sides of the second vent hole, and the second vent hole and the third vent hole are both located on one side close to the first connecting pipe.

3. The blanket clipper gas exchange and transport precision control machine of claim 2, wherein: the aperture of the third vent hole is larger than that of the second vent hole.

4. The blanket clipper gas exchange and transport precision control machine of claim 1, wherein: the second chamber is provided with a first vent pipe, and the first vent pipe is communicated with the atmosphere.

5. The blanket clipper gas exchange and transport precision control machine of claim 1, wherein: the fourth gas transmission pipe is a negative pressure pipe.

6. The blanket clipper gas exchange and transport precision control machine of claim 1, wherein: and a third gas transmission channel is arranged on the fifth chamber and communicated with the atmosphere.

7. The blanket clipper gas exchange and transport precision control machine of claim 1, wherein: one end of the second push rod is connected to the inner side of the fixed sleeve through a spring, and the inner side of the other end of the second push rod abuts against the end face of the boosting plate through the spring.

8. The blanket clipper gas exchange and transport precision control machine of claim 1, wherein: the horizontal channel and the first cavity are located on the same horizontal straight line.

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