CN218701689U - Be used for system bag machine to stabilize mediation device - Google Patents

Abstract

The utility model relates to a be used for bag machine to stabilize mediation device belongs to bag machine technical field, the below symmetry of the protection dish described is equipped with left and right photoelectric sensing ware, and the photoelectric sensing ware is used for detecting the material off tracking and detects, transmits the signal to the PLC controller through the data line, and the PLC controller control solenoid valve starts and closes, and the protection dish takes left and right photoelectric sensing ware to rotate, but does not influence the use of photoelectric sensing ware; one side surface of the cylinder is respectively provided with an air inlet and an air outlet, the air inlet and the air outlet are respectively connected with an air pipe and an electromagnetic valve to be connected with an external high-pressure air source, and the electromagnetic valve is connected with a PLC (programmable logic controller) through a power line and is used for controlling the operation and the stop of the cylinder; the photoelectric sensor has the advantages of simple structure, reliable performance, high precision, fast reaction and the like, and the photoelectric sensor can return the strip to the original position by being matched with a special stabilizing and adjusting device to achieve the purpose of conveying and adjusting.

Description

Be used for system bag machine to stabilize mediation device

Technical Field

The utility model relates to a be used for stable mediation device of system bag machine belongs to system bag machine technical field.

Background

The bag making machine is a machine for making various plastic packaging bags or packaging bags made of other materials, the processing range of the bag making machine is various plastic packaging bags or packaging bags made of other materials with different sizes, thicknesses and specifications, and the plastic packaging bags are generally used as main products.

The improvement of the function of the bag making machine is mainly in the aspects of control parts, such as adjustment of bag making length, adjustment of color code detection, improvement of production speed and the like. In the past, manual adjustment is adopted, for example, the eccentricity value of a crank mechanism must be carefully adjusted when the length is adjusted, then the machine is started to make a bag, the length of a sample is checked, and the operation is repeated for several times, so that the operation is troublesome. And because the intermittent reciprocating motion is adopted, the machine vibration is large. If the stepping motor is used to directly drive the rubber roller to perform intermittent reciprocating operation, the pulse number is controlled through an electric circuit so as to control the working time of the motor. The film with fixed length can be conveyed out, the error is extremely small, thus, a set of crank connecting rod mechanism can be saved, the length adjustment is convenient, and an electromagnetic clutch, a brake or an overrunning clutch and a complex and expensive electric control system can be saved. The stepping motor is provided with a driver and a special stepping motor controller to centralize various electric buttons. This allows the bag length, and other operating items, to be set very simply on the control panel by means of a dialer. Such as the on-machine stop position, the material discharge amount, a color code photoelectric probe switch, a machine main switch, the welding cutter temperature, a counter and the like. The main motor drives the main shaft of the transmission part to rotate, and the main shaft is provided with a special cam which can provide signals for starting, stopping and the like of the stepping motor. The machine completes bag making operation, sealing, cutting, conveying, color code aligning, etc. and operates in coordination according to various set requirements. Because all the electric element control instruments, including photoelectric probe switches, proximity switches and the like, are low in price and convenient to match, the automatic bag making machine can be produced automatically, and a whole set of supply can be found, so that the professional production can provide great convenience for bag making machine manufacturers, the improvement of the level of the whole machine is facilitated, conditions are provided for developing more new bag making machines, and the technical progress is promoted.

In the existing conveyor, the position deviation of materials in the horizontal direction which possibly occurs due to various reasons such as uneven stress, uneven thickness, roundness of a traction roller and the like in the conveying process needs to be timely detected in the online deviation manner. Because the speed of the bag making machine is not high, the operator can manually adjust the material deviation according to the actual field observation, which wastes time and labor and does not meet the requirements of safe production.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that exists among the prior art, the utility model aims to provide a be used for stable mediation device of system bag machine, the below symmetry of protection dish is equipped with left and right photoelectric sensing ware, and photoelectric sensing ware is used for detecting the material off tracking and detects, passes through the data line with the signal and transmits to the PLC controller on, and PLC controller control solenoid valve starts and closes, and the protection dish takes left and right photoelectric sensing ware to rotate, nevertheless does not influence photoelectric sensing ware's use. One side surface of the cylinder is respectively provided with an air inlet hole and an air outlet hole, the air inlet hole and the air outlet hole are respectively connected with an air pipe and an electromagnetic valve to be connected with an external high-pressure air source, and the electromagnetic valve is connected with a PLC (programmable logic controller) through a power line and is used for controlling the operation and the stop of the cylinder 1. The photoelectric sensor has the advantages of simple structure, reliable performance, high precision, quick response and the like, and can be used for timely returning the material to the original position to achieve the purpose of conveying adjustment without manually adjusting the deviation material.

In order to achieve the above purpose, the utility model provides a following technical scheme:

a stability adjusting device for a bag making machine is characterized in that a vertical positioning plate 3 is arranged at the center of one side of a cross beam square tube 10, a left supporting bar and a right supporting bar are arranged on the cross beam square tube 10 on the left side and the right side of the vertical positioning plate 3, an air cylinder 1 is fixedly arranged above the vertical positioning plate 3, an L-shaped supporting plate 29 is arranged on the vertical positioning plate 3 on one side of the air cylinder 1 through screws, a right side plate 30 is arranged at the upper end of the L-shaped supporting plate 29 through screws, a side connecting plate 34 is arranged on one side of the right side plate 30, a left side plate 33 is arranged at the other end of the side connecting plate 34, the left side plate 33 and the right side plate 30 are symmetrical to each other, a direct current motor 35 is fixedly arranged on the outer side surface of the left side plate 33, a main shaft of the direct current motor 35 penetrates through the left side plate 33 and is connected with a lead screw 32 through a shaft sleeve, the tail of the lead screw 32 penetrates through a lead screw nut arranged on the right side plate 30, a middle sliding block 31 with the lead screw nut is arranged on the lead screw 32, and a middle sliding block 26 is arranged below the vertical positioning plate 3; the method is characterized in that: the extension shaft is fixed on a spindle positioning plate 7 through a nut, the spindle positioning plate 7 is vertically arranged on one side of a fixing plate 6, the fixing plate 6 is arranged on one side of an upper bearing slide seat 8, the upper bearing slide seat 8 is arranged on a first spindle 5, the left end of the first spindle 5 is arranged on a tail chuck 9, the right end of the first spindle 5 is arranged on a head chuck 4, the head chuck 4 is fixedly arranged on a middle supporting plate 26, the tail chuck 9 is arranged on the upper end of a left supporting bar, the lower end of the left supporting bar is provided with a first lower tail chuck 11, a second spindle 13 is arranged in the first lower tail chuck 11, a lower bearing slide seat 12 is slidably arranged on the second spindle 13, the other end of the second spindle 13 is arranged in a second lower tail chuck 14, the second lower tail chuck 14 is fixedly arranged on the middle supporting plate 26, a positioning bottom plate 20 is arranged on one side surface of the upper bearing slide seat 8 and the lower bearing slide seat 12, and a lower guard strip 15 is arranged on the outer side surface of the positioning bottom plate 20;

the left side of the right supporting bar is provided with a tail clamping seat 22, a spindle IV 24 is arranged in the tail clamping seat, the other end of the spindle IV 24 is arranged in a head clamping seat 25, and a left bearing sliding seat 23 is arranged on the spindle IV 24 in a sliding manner; the right side of the right support bar is provided with a tail clamping seat 22, a main shaft III 18 is arranged in the tail clamping seat, the other end of the main shaft III 18 is arranged in a head clamping seat 25, and a right bearing sliding seat 19 is arranged on the main shaft III 18 in a sliding manner; the outer side surfaces of the left bearing sliding seat 23 and the right bearing sliding seat 19 are provided with a positioning bottom plate 20, and the edge of one side of the positioning bottom plate 20 is provided with an upper protection strip 21;

a flange plate is arranged at the center of the middle supporting plate 26, a positioning main shaft is arranged on the flange plate, a rotating wheel disc 17 with a bearing is arranged at the top end of the positioning main shaft, U-shaped upper limit 2 and lower limit 16 are respectively arranged at the edges of the middle supporting plate 26 at the left side and the right side of the rotating wheel disc 17, the upper ends of the upper limit 2 and the lower limit 16 are respectively provided with a limit screw, the lower guard strip 15 is arranged between the rotating wheel disc 17 and the limit screws on the lower limit 16, the upper guard strip 21 is arranged between the rotating wheel disc 17 and the limit screws on the upper limit 2, and the lower guard strip 15 and the upper guard strip 21 are staggered up and down on the periphery of the rotating wheel disc 17;

the rotating wheel disc 17, the lower guard strip 15 and the upper guard strip 21 are positioned on the same plane.

The outer side surface of the rotating wheel disc 17 is provided with a protection disc through a screw, and the protection disc covers the rotating wheel disc 17, the lower protection strip 15 and the upper protection strip 21.

And one side surface of the cylinder 1 is respectively provided with an air inlet and an air outlet, the air inlet and the air outlet are respectively connected with an air pipe and an electromagnetic valve to be connected with an external high-pressure air source, and the electromagnetic valve is connected with a PLC (programmable logic controller) through a power line and is used for controlling the operation and stop of the cylinder 1.

Symmetrical side supports 27 are respectively arranged below the left positioning bottom plate 20 and the right positioning bottom plate 20.

The inward side of the lower end of the side bracket 27 is provided with a correction plate 28.

The lead screw 32 is in sliding fit with the lead screw nut.

The top of the middle slide block 31 is provided with a fixed connecting plate through a screw.

The intermediate slider 31 is in sliding contact with one side of the side connecting plate 34 at a position between the right side plate 30 and the left side plate 33.

The beneficial effects of the utility model reside in that:

the rotating wheel disc 17, the lower protective strip 15 and the upper protective strip 21 are located on the same plane, a protective disc is arranged on the outer side face of the rotating wheel disc 17 through a screw, the protective disc covers the rotating wheel disc 17, the lower protective strip 15 and the upper protective strip 21, and the protective disc is used for limiting the rotating wheel disc 17, the lower protective strip 15 and the upper protective strip 21 to operate on the same plane. The lower symmetry of protection dish be equipped with left and right photoelectric sensor, photoelectric sensor is used for detecting the material off tracking and detects, with signal transmission to PLC controller through the data line on, PLC controller control solenoid valve starts and closes. The left and right photoelectric sensors of the protection disk belt rotate, but the use of the photoelectric sensors is not influenced.

And one side surface of the cylinder 1 is respectively provided with an air inlet and an air outlet, the air inlet and the air outlet are respectively connected with an air pipe and an electromagnetic valve to be connected with an external high-pressure air source, and the electromagnetic valve is connected with a PLC (programmable logic controller) through a power line and is used for controlling the operation and stop of the cylinder 1.

The photoelectric sensor has the advantages of simple structure, reliable performance, high precision, fast reaction and the like, and the photoelectric sensor needs to be matched with a stable adjusting device to adjust the material to the original position without manual operation and is safe to produce.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a perspective view of the present invention.

Fig. 3 is a first exploded view of fig. 1.

Fig. 4 is an exploded view of fig. 1.

In the figure: the device comprises an air cylinder 1, an upper limit 2, a vertical positioning plate 3, a head chuck 4, a first main shaft 5, a fixing plate 6, a main shaft positioning plate 7, an upper bearing slide seat 8, a tail chuck 9, a beam square tube 10, a first lower tail chuck 11, a lower bearing slide seat 12, a second main shaft 13, a second lower tail chuck 14, a lower guard bar 15, a lower limit 16, a rotating wheel disc 17, a third main shaft 18, a right bearing slide seat 19, a positioning bottom plate 20, an upper guard bar 21, a tail clamp seat 22, a left bearing slide seat 23, a fourth main shaft 24, a head clamp seat 25, a middle supporting plate 26, a side support 27, a correcting plate 28, an L-shaped supporting plate 29, a right side plate 30, a middle sliding block 31, a lead screw 32, a left side plate 33, a side connecting plate 34 and a direct current motor 35.

Detailed Description

The technical solution of the present invention will be clearly and completely described below:

as shown in fig. 1-4, a vertical positioning plate 3 is disposed at the center of one side of a cross beam square tube 10, a left support bar and a right support bar are disposed on the cross beam square tube 10 on the left and right sides of the vertical positioning plate 3, a cylinder 1 is fixedly disposed above the vertical positioning plate 3, an L-shaped support plate 29 is disposed on the vertical positioning plate 3 on one side of the cylinder 1 through a screw, a right side plate 30 is disposed at the upper end of the L-shaped support plate 29 through a screw, a side connecting plate 34 is disposed on one side of the right side plate 30, a left side plate 33 is disposed at the other end of the side connecting plate 34, the left side plate 33 and the right side plate 30 are symmetrical to each other, a dc motor 35 is fixedly disposed on the outer side of the left side plate 33, a main shaft of the dc motor 35 passes through the left side plate 33 and is connected with a lead screw 32 through a shaft sleeve, the tail of the lead screw 32 passes through a lead screw nut disposed on the right side plate 30, a middle slider 31 with the lead screw nut is disposed on the lead screw 32, and a middle support plate 26 is disposed below the vertical positioning plate 3; the extension shaft is fixed on a spindle positioning plate 7 through a nut, the spindle positioning plate 7 is vertically arranged on one side of a fixing plate 6, the fixing plate 6 is arranged on one side of an upper bearing slide seat 8, the upper bearing slide seat 8 is arranged on a first spindle 5, the left end of the first spindle 5 is arranged on a tail chuck 9, the right end of the first spindle 5 is arranged on a head chuck 4, the head chuck 4 is fixedly arranged on a middle supporting plate 26, the tail chuck 9 is arranged on the upper end of a left supporting bar, the lower end of the left supporting bar is provided with a first lower tail chuck 11, a second spindle 13 is arranged in the first lower tail chuck 11, a lower bearing slide seat 12 is slidably arranged on the second spindle 13, the other end of the second spindle 13 is arranged in a second lower tail chuck 14, the second lower tail chuck 14 is fixedly arranged on the middle supporting plate 26, a positioning bottom plate 20 is arranged on one side surface of the upper bearing slide seat 8 and the lower bearing slide seat 12, and a lower guard strip 15 is arranged on the outer side surface of the positioning bottom plate 20;

the left side of the right supporting bar is provided with a tail clamping seat 22, a spindle IV 24 is arranged in the tail clamping seat, the other end of the spindle IV 24 is arranged in a head clamping seat 25, and a left bearing sliding seat 23 is arranged on the spindle IV 24 in a sliding manner; the right side of the right support bar is provided with a tail clamping seat 22, a main shaft III 18 is arranged in the tail clamping seat, the other end of the main shaft III 18 is arranged in a head clamping seat 25, and a right bearing sliding seat 19 is arranged on the main shaft III 18 in a sliding manner; the outer side surfaces of the left bearing sliding seat 23 and the right bearing sliding seat 19 are provided with positioning bottom plates 20, and the edge of one side of each positioning bottom plate 20 is provided with an upper protection strip 21;

a flange plate is arranged at the center of the middle supporting plate 26, a positioning main shaft is arranged on the flange plate, a rotating wheel disc 17 with a bearing is arranged at the top end of the positioning main shaft, a U-shaped upper limit 2 and a U-shaped lower limit 16 are respectively arranged at the edges of the middle supporting plate 26 at the left side and the right side of the rotating wheel disc 17, a limit screw is respectively arranged at the upper end of the upper limit 2 and the upper end of the lower limit 16, the lower guard strip 15 is arranged between the rotating wheel disc 17 and the limit screw on the lower limit 16, the upper guard strip 21 is arranged between the rotating wheel disc 17 and the limit screw on the upper limit 2, and the lower guard strip 15 and the upper guard strip 21 are staggered up and down on the periphery of the rotating wheel disc 17; when the lower protective strip 15 moves left and right, the rotating wheel disc 17 correspondingly rotates, so that the upper protective strip 21 is driven to move left and right. The function of the lateral bracket 27 and the correction plate 28 for the right and left displacement is realized.

The rotating wheel disc 17, the lower protective strip 15 and the upper protective strip 21 are located on the same plane, a protective disc is arranged on the outer side face of the rotating wheel disc 17 through a screw, the protective disc covers the rotating wheel disc 17, the lower protective strip 15 and the upper protective strip 21, and the protective disc is used for limiting the rotating wheel disc 17, the lower protective strip 15 and the upper protective strip 21 to operate on the same plane. The lower symmetry of protection dish be equipped with left and right photoelectric sensor, photoelectric sensor is used for detecting the material off tracking and detects, with signal transmission to PLC controller through the data line on, PLC controller control solenoid valve starts and closes. The protection disk belt is provided with the left and right photoelectric sensors to rotate, but the use of the photoelectric sensors is not influenced.

The photoelectric sensor has the advantages of simple structure, reliable performance, high precision, fast reaction and the like, and the photoelectric sensor can return the strip to the original position by being matched with a special stabilizing and adjusting device to achieve the purpose of conveying and adjusting.

And one side surface of the cylinder 1 is respectively provided with an air inlet and an air outlet, the air inlet and the air outlet are respectively connected with an air pipe and an electromagnetic valve to be connected with an external high-pressure air source, and the electromagnetic valve is connected with a PLC (programmable logic controller) through a power line and is used for controlling the operation and stop of the cylinder 1.

Symmetrical side supports 27 are respectively arranged below the left and right positioning bottom plates 20, and the inward side of the lower end of each side support 27 is provided with a correction plate 28 for correcting the neatness of materials on the bag making machine.

The screw rod 32 is in sliding fit with the screw rod nut, the top of the middle sliding block 31 is provided with a fixed connecting plate through a screw, and the middle sliding block 31 is arranged between the right side plate 30 and the left side plate 33 and is in sliding contact with one side surface of the side connecting plate 34.

Claims (8)

1. A stability adjusting device for a bag making machine is characterized in that a vertical positioning plate (3) is arranged at the center of one side of a beam square tube (10), a left support bar and a right support bar are arranged on the beam square tube (10) on the left side and the right side of the vertical positioning plate (3), an air cylinder (1) is fixedly arranged above the vertical positioning plate (3), an L-shaped support plate (29) is arranged on the vertical positioning plate (3) on one side of the air cylinder (1) through a screw, a right side plate (30) is arranged at the upper end of the L-shaped support plate (29) through a screw, a side connecting plate (34) is arranged on one side of the right side plate (30), a left side plate (33) is arranged at the other end of the side connecting plate (34), the left side plate (33) and the right side plate (30) are symmetrical to each other, a direct current motor (35) is fixedly arranged on the outer side surface of the left side plate (33), a main shaft of the direct current motor (35) penetrates through the left side plate (33) to be connected with a lead screw (32) through a shaft sleeve, the tail of the lead screw (32) penetrates through a nut arranged on the right side plate (30), a middle sliding block (31) with a lead screw nut is arranged on the lead screw (32), and a middle supporting plate (26) is arranged on the vertical positioning plate (3); the method is characterized in that: an extension shaft of the cylinder (1) is fixed on a spindle positioning plate (7) through a nut, the spindle positioning plate (7) is vertically arranged on one side of a fixing plate (6), the fixing plate (6) is arranged on one side of an upper bearing sliding seat (8), the upper bearing sliding seat (8) is arranged on a spindle I (5), the left end of the spindle I (5) is arranged on a tail chuck (9), the right end of the spindle I is arranged on a head chuck (4), the head chuck (4) is fixedly arranged on a middle supporting plate (26), the tail chuck (9) is arranged on the upper end of a left supporting bar, the lower end of the left supporting bar is provided with a first lower tail chuck (11), a second spindle (13) is arranged in the first lower tail chuck (11), a lower bearing sliding seat (12) is arranged on the second spindle II (13) in a sliding manner, the other end of the second spindle II (13) is arranged in a second lower tail chuck (14), the second lower tail chuck (14) is fixedly arranged on the middle supporting plate (26), a side face of the upper bearing sliding seat (8) and a side face of a lower bearing sliding seat (12) is provided with a lower side protective strip (15);

the left side of the right supporting bar is provided with a tail clamping seat (22), a spindle IV (24) is arranged in the tail clamping seat, the other end of the spindle IV (24) is arranged in a head clamping seat (25), and a left bearing sliding seat (23) is arranged on the spindle IV (24) in a sliding manner; the right side of the right supporting strip is provided with a tail clamping seat (22), a third spindle (18) is arranged in the tail clamping seat, the other end of the third spindle (18) is arranged in a head clamping seat (25), and a right bearing sliding seat (19) is arranged on the third spindle (18) in a sliding manner; the outer side surfaces of the left bearing sliding seat (23) and the right bearing sliding seat (19) are provided with positioning bottom plates (20), and the edge of one side of each positioning bottom plate (20) is provided with an upper protection strip (21);

the center of the middle supporting plate (26) is provided with a flange plate, the flange plate is provided with a positioning main shaft, the top end of the positioning main shaft is provided with a rotating wheel disc (17) with a bearing, the edges of the middle supporting plate (26) at the left side and the right side of the rotating wheel disc (17) are respectively provided with a U-shaped upper limit (2) and a U-shaped lower limit (16), the upper ends of the upper limit (2) and the lower limit (16) are respectively provided with a limit screw, the lower protective strip (15) is arranged between the rotating wheel disc (17) and the limit screws on the lower limit (16), the upper protective strip (21) is arranged between the rotating wheel disc (17) and the limit screws on the upper limit (2), and the lower protective strip (15) and the upper protective strip (21) are staggered up and down on the periphery of the rotating wheel disc (17);

the rotating wheel disc (17), the lower protective strip (15) and the upper protective strip (21) are positioned on the same plane.

2. A stabilizing adjustment device for a bag machine as claimed in claim 1, wherein: the outer side surface of the rotating wheel disc (17) is provided with a protective disc through a screw, and the protective disc covers the rotating wheel disc (17), the lower protective strip (15) and the upper protective strip (21).

3. A stabilizing adjustment device for a bag machine as claimed in claim 1, wherein: one side surface of the air cylinder (1) is respectively provided with an air inlet hole and an air outlet hole, the air inlet hole and the air outlet hole are respectively connected with an air pipe and an electromagnetic valve to be connected with an external high-pressure air source, and the electromagnetic valve is connected with a PLC (programmable logic controller) through a power line and used for controlling the operation and the stop of the air cylinder (1).

4. A stabilizing adjustment device for a bag machine as claimed in claim 1, wherein: symmetrical side supports (27) are respectively arranged below the left positioning bottom plate and the right positioning bottom plate (20).

5. The stabilizing adjustment device for bag making machine as claimed in claim 4, wherein: the inward side surface of the lower end of the side bracket (27) is provided with a correction plate (28).

6. A stabilizing adjustment device for a bag machine as claimed in claim 1, wherein: the screw rod (32) is in sliding fit with the screw rod nut.

7. A stabilizing adjustment device for a bag machine as claimed in claim 1, wherein: the top of the middle sliding block (31) is provided with a fixed connecting plate through a screw.

8. A stabilizing adjustment device for a bag machine as claimed in claim 1, wherein: the middle sliding block (31) is arranged between the right side plate (30) and the left side plate (33) and is in sliding contact with one side of the side connecting plate (34).

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