CN215404940U - X horizontal pole mechanism of template machine - Google Patents

Abstract

The utility model provides an X cross bar mechanism of a template machine. The lead screw clamping device comprises a motor, a coupler, a lead screw right side fixing seat, a lead screw, a base, a lead screw nut, a lead screw left side fixing seat, an inductor, a lead screw nut mounting block, a bridging connection block, a slider connection plate, a slider track, a slider, two limiting pads and a pressing frame component; a cavity channel is arranged in the base, and the screw rod right side fixing seat, the screw rod left side fixing seat and the slide block rail are arranged on the same plane; the motor is arranged on the left side or the right side of the base; the lead screw nut and the lead screw nut mounting block are sleeved on the lead screw, and the lead screw nut is mounted on the lead screw nut mounting block; the sliding block is arranged on the sliding block track, and the sliding block connecting plate is arranged on the sliding block; the bridging connection block is used for connecting the screw nut installation block and the sliding block connection plate. This scheme can make the easy adjustment of the depth of parallelism between lead screw and the slider connecting plate, and the orbital stroke of lead screw and slider all can make full use of, has simplified the structure of product.

Description

X horizontal pole mechanism of template machine

Technical Field

The utility model relates to the technical field of sewing machines, in particular to an X cross bar mechanism of a template machine.

Background

During the sewing process of the template machine, the feeding device is required to drive the template machine to move on the bedplate. The existing feeding device usually adopts an XY-axis motor driving device to feed materials, that is, a motor driving device is respectively installed in the X-axis direction and the Y-axis direction, a motor drives a pressing frame component to move through a synchronous belt, and the pressing frame component clamps a template, wherein the pressing frame component is installed on the motor driving device in the X-axis direction, the motor driving device in the X-axis direction is installed on the motor driving device in the Y-axis direction, the X-axis direction refers to the left-right direction, and the Y-axis direction refers to the front-back direction.

Along with the improvement of the requirement on sewing precision, the feeding device is gradually driven by the original synchronous belt to be driven by the screw rod, and the precision of the screw rod driving is better than that of the synchronous belt. The screw rod drive is that X horizontal pole mechanism is installed to X axle direction, installs Y vertical pole mechanism in Y axle direction, and X horizontal pole mechanism is installed on Y vertical pole mechanism, and the lead screw that X horizontal pole mechanism includes can drive the pressure frame part and remove.

The X cross bar mechanism generally comprises an aluminum profile base, a motor, a coupler, a screw rod, two screw rod fixing seats, a screw rod nut mounting block, a slide block track, a slide block connecting plate and a pressing frame part; the aluminum profile base is provided with a cavity channel along the length direction of the aluminum profile base, the cavity channel comprises a first mounting surface and a second mounting surface, the height of the first mounting surface is lower than that of the second mounting surface, the first mounting surface penetrates through the left side surface and the right side surface of the aluminum profile base, and the second mounting surface does not penetrate through the left side surface and the right side surface of the aluminum profile base; the two screw rod fixing seats are arranged at two ends of the first mounting surface, two ends of the screw rod are respectively fixed on the two screw rod fixing seats, and one end of the screw rod is connected with the motor through a coupler; the screw rod nut is sleeved on the screw rod, the left side of the screw rod nut is connected with the screw rod nut mounting block, and the screw rod nut mounting block is connected with the sliding block connecting plate; the sliding block connecting plate is arranged on the sliding block, and the sliding block is arranged on the sliding block track; the slider rail is arranged on the second mounting surface; the two ends of the front side of the aluminum profile base are respectively provided with a limiting pad, the limiting pads are positioned on the outer side of the cavity channel and are used for preventing the sliding block connecting plate from exceeding a preset stroke, the stroke of the sliding block connecting plate is equal to or slightly smaller than the distance between the two limiting pads on the left side and the right side, and the distance between the two limiting pads is smaller than the distance between the two lead screw fixing seats; the pressing frame component is arranged on the sliding block connecting plate; install the response piece on the installation frame, the inductor is installed on the material base front side, and the position of inductor and response piece contact is as the original point of lead screw stroke.

However, the X-beam mechanism of the existing plate-punching machine is generally only considered to be capable of realizing screw rod driving, which has the following problems:

1. the screw rod fixing seat and the slide block rail are arranged on planes with different heights, so that the parallelism between the screw rod and the slide block connecting plate is not easy to adjust;

2. the travel of the screw rod and the slide block track only utilizes a part, and the left side and the right side have longer spaces which are not utilized.

SUMMERY OF THE UTILITY MODEL

The utility model provides an X cross bar mechanism of a template machine, which aims to solve the technical problem of the conventional X cross bar mechanism.

In order to solve the technical problem, the utility model provides an X cross bar mechanism of a template machine, which comprises a motor, a coupler, a lead screw right side fixing seat, a lead screw, a base, a lead screw nut, a lead screw left side fixing seat, an inductor, a lead screw nut mounting block, a bridging connection block, a slider connection plate, a slider track, a slider, two limiting pads and a pressing frame part, wherein the lead screw right side fixing seat is fixedly connected with the lead screw;

the base is internally provided with a cavity channel, the right-side fixed seat of the screw rod is installed on the right side of the cavity channel, the left-side fixed seat of the screw rod is installed on the left side of the cavity channel, the slider track is installed in the cavity channel, and the right-side fixed seat of the screw rod, the left-side fixed seat of the screw rod and the slider track are installed on the same plane;

the motor is arranged on the left side or the right side of the base, and a shaft of the motor is connected with the screw rod through the coupler;

the screw rod nut and the screw rod nut mounting block are sleeved on the screw rod, and the screw rod nut is mounted on the screw rod nut mounting block;

the right end of the screw rod is installed on the right side fixing seat of the screw rod, the left end of the screw rod is installed on the left side fixing seat of the screw rod, and the screw rod is parallel to the slide block track;

the sliding block is arranged on the sliding block track, and the sliding block connecting plate is arranged on the sliding block; the bridging connection block is used for connecting the screw nut mounting block and the sliding block connecting plate;

the sensor is arranged on the left side or the right side of the cavity channel and used for determining the origin of the lead screw stroke;

the two sides of the cavity channel are respectively provided with one limiting pad, and the limiting pads prevent the sliding block connecting plate from exceeding a preset stroke;

the pressing frame part is connected with the sliding block connecting plate.

Optionally, the shape of the bridging connection block is L-shaped, the bridging connection block includes a first mounting surface and a second mounting surface, the first mounting surface is provided with a waist-shaped hole for connecting the lead screw nut mounting block, and the second mounting surface is provided with a waist-shaped hole for connecting the slider connection plate.

Optionally, the number of the waist-shaped holes on the first mounting surface and the second mounting surface is two.

Optionally, the cavity channel runs through both sides of the base, the X cross bar mechanism further includes a left cover plate and a right cover plate, the left cover plate is installed on the left side surface of the base, and the right cover plate is installed on the right side surface of the base.

Optionally, the X-bar mechanism further includes an upper cover plate, the upper cover plate is mounted on the upper side surface of the base, and the cavity channel penetrates through the upper side surface of the base.

Optionally, the two limiting pads are respectively installed on the left cover plate and the right cover plate.

Optionally, the motor is mounted on the right cover plate.

Optionally, the height of the axis of the screw rod is higher than the height of the upper surface of the slider connecting plate; the length of the screw rod is smaller than that of the slide block track, and a gap is formed between the left side fixing seat of the screw rod and the left cover plate;

the minimum distance between the slide block connecting plate and the screw rod right side fixing seat is 1mm, the minimum distance between the slide block connecting plate and the screw rod left side fixing seat is 1mm, and the slide block connecting plate does not interfere with the screw rod right side fixing seat, the screw rod left side fixing seat and the screw rod when moving left and right in the X-axis direction;

the X cross bar mechanism further comprises a steel wire and two steel wire pressing sheets, the steel wire is positioned above the sliding block connecting plate, and two ends of the steel wire are respectively fixed on the left cover plate and the right cover plate through the two steel wire pressing sheets;

the frame pressing component comprises a gas pipe joint, a left telescopic gas pipe and a right telescopic gas pipe; the air pipe joint is arranged on the left cover plate, and the inductor is arranged in a gap between the left fixed seat of the screw rod and the left cover plate; the left telescopic air pipe and the right telescopic air pipe are wound on the steel wire; the left end of the left telescopic air pipe is fixed on the left steel wire pressure piece, and the right end of the left telescopic air pipe is fixed on the air pipe limiting plate; the gas pipe limiting plate is fixed on the bridging connecting block and is provided with a notch for fixing a gas pipe; the right end of the right telescopic air pipe is fixed on the right steel wire pressing sheet, and the left end of the right telescopic air pipe is fixed on the air pipe limiting plate.

Optionally, when the slider connecting plate moves to the leftmost side, the distance between the screw rod nut and the screw rod left side fixing seat is 10-20 mm; when the slide block connecting plate moves to the rightmost side, the distance between the screw rod nut and the screw rod right side fixing seat is 10-20 mm.

Optionally, the base, the left cover plate, the right cover plate and the upper cover plate enclose to form a space, and the coupler, the lead screw right side fixing seat, the lead screw nut, the lead screw left side fixing seat, the inductor, the air pipe connector, the steel wire pressing sheet, the left side telescopic air pipe, the lead screw nut mounting block, the bridging connection block, the slider connection plate, the slider track, the right side telescopic air pipe, the steel wire, the limiting pad and the slider are all located in the space.

According to the X cross bar mechanism of the template machine, the right side fixed seat of the screw rod, the left side fixed seat of the screw rod and the slide block rail are arranged on the same plane, so that the parallelism between the screw rod and the slide block connecting plate is easy to adjust; the limiting pads are arranged on two sides of the cavity channel, the length of the sliding block track can be equal to or close to that of the cavity channel, and the strokes of the screw rod and the sliding block track can be fully utilized; from the screw nut to the frame pressing part, only three parts, namely a screw nut mounting block, a bridging connection block and a sliding block connection plate, are used, and the structure of a product is simplified.

Drawings

Fig. 1 is a perspective view of an X-beam mechanism when a slider connecting plate according to an embodiment of the present invention is moved to the leftmost side.

Fig. 2 is a top view of fig. 1.

Fig. 3 is a partially enlarged view of the left side of fig. 2.

FIG. 4 is a top schematic view of the X-beam mechanism with the slider attachment plate running to the far right according to one embodiment of the present invention.

Fig. 5 is a partial enlarged view of the right side of fig. 4.

Fig. 6 is a left side view of the left cover plate hidden in fig. 1.

Fig. 7 is a perspective view of the X-beam mechanism with an upper cover plate installed thereon according to an embodiment of the present invention.

[ reference numerals are described below ]:

the device comprises a motor-1, a coupler-2, a screw rod right side fixing seat-3, a screw rod-4, a base-5, a screw rod nut-6, a screw rod left side fixing seat-7, an inductor-8, a gas pipe connector-9, a left cover plate-10, a steel wire pressing piece-11, a left side telescopic gas pipe-12, a screw rod nut mounting block-13, a bridging connection block-14, a slider connection plate-15, a slider rail-16, a right side telescopic gas pipe-17, a steel wire-18, a limiting pad-19, a right cover plate-20, a slider-21, an upper cover plate-22 and a press frame part mounting surface-23; a trachea limiting plate-24.

Detailed Description

To make the objects, advantages and features of the present invention more apparent, the X-beam mechanism of a stencil making machine according to the present invention will be described in further detail with reference to the accompanying drawings. It is to be noted that the drawings are in a very simplified form and are not to precise scale, which is merely for the purpose of facilitating and distinctly claiming the embodiments of the present invention.

In the description of the present invention, the terms "first", "second", etc. are used for convenience of description and reference, but are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined by a qualifier such as "first," "second," etc., may explicitly or implicitly include one or more of that feature.

As shown in fig. 1 to 6, the present embodiment provides an X-beam mechanism of a template machine, which includes a motor 1, a coupler 2, a right-side lead screw fixing seat 3, a lead screw 4, a base 5, a lead screw nut 6, a left-side lead screw fixing seat 7, an inductor 8, a lead screw nut mounting block 13, a bridging connection block 14, a slider connection plate 15, a slider rail 16, a slider, two limit pads 19, and a frame pressing component; a cavity channel is arranged in the base 5, the screw rod right side fixing seat 3 is installed on the right side of the cavity channel, the screw rod left side fixing seat 7 is installed on the left side of the cavity channel, the slider rail 16 is installed in the cavity channel, and the screw rod right side fixing seat 3, the screw rod left side fixing seat 7 and the slider rail 16 are installed on the same plane; the motor 1 is arranged on the left side or the right side of the base 5, and a shaft of the motor 1 is connected with the screw rod 4 through the coupler 2; the screw rod nut 6 and the screw rod nut mounting block 13 are both sleeved on the screw rod 4, and the screw rod nut 6 is mounted on the screw rod nut mounting block 13; the right end of the screw rod is installed on the screw rod right side fixing seat 3, the left end of the screw rod is installed on the screw rod left side fixing seat 7, and the screw rod 4 is parallel to the slider rail 16; the slide block 21 is arranged on the slide block track 16, and the slide block connecting plate 15 is arranged on the slide block 21; the bridging connection block 14 is used for connecting the lead screw nut mounting block 13 and the slide block connecting plate 15; the inductor 8 is arranged on the left side or the right side of the cavity channel, and the inductor 8 is used for determining the origin of the stroke of the screw rod 4; the two sides of the cavity channel are respectively provided with one limiting pad 19, and the limiting pads 19 prevent the sliding block connecting plate 15 from exceeding a preset stroke; the frame pressing part is connected with the slider connecting plate 15.

The front, back, left, right, and the like in the present invention are directions determined by positions in the drawings. The base 5 may be an aluminium profile base. The number of the sliding blocks 21 can be two, so that the running stability of the sliding block connecting plate 15 is improved. The sensor 8 can directly sense with the slide block connecting plate 15 to determine the original point of the screw rod stroke. More than two limiting pads 19 can be respectively arranged on two sides of the cavity channel. The pressing frame part is used for clamping a template, the pressing frame part comprises an air cylinder and other parts which can be installed on a pressing frame part installation surface 23, the pressing frame part installation surface 23 is an installation surface of the sliding block connecting plate 15, and the pressing frame part installation surface 23 is perpendicular to the horizontal plane. The slider connecting plate 15 is shaped like a T, the other mounting surface of the slider connecting plate 15 is parallel to the horizontal plane, and the other mounting surface of the slider connecting plate 15 is used for connecting a slider 21. The feed screw nut mounting block 13 can be provided with a bayonet to clamp the feed screw nut 6 for limiting. The length of the slider track 16 may be equal to or close to the length of the cavity channel. The length of the lead screw 4 is equal to or slightly less than the length of the slider rail 16.

In the X-beam mechanism of a template machine provided by this embodiment, the right-side fixing seat 3 of the lead screw, the left-side fixing seat 7 of the lead screw, and the slider rail 16 are installed on the same plane, so that the parallelism between the lead screw 4 and the slider connecting plate 15 is easily adjusted; the limit pads 19 are arranged at two sides of the cavity channel, the length of the slider track 16 can be equal to or close to that of the cavity channel, and the strokes of the screw rod 4 and the slider track 16 can be fully utilized; from the screw nut 6 to the frame pressing part, only three parts of a screw nut mounting block 13, a bridging connecting block 14 and a sliding block connecting plate 15 are used, and the structure of the product is simplified.

Optionally, as shown in fig. 3 and 6, the shape of the crossover connection block 14 is an L-shape, the crossover connection block 14 includes a first mounting surface and a second mounting surface, the first mounting surface is provided with a kidney-shaped hole for connecting the lead screw nut mounting block 13, and the second mounting surface is provided with a kidney-shaped hole for connecting the slider connection plate 15. The position of the bridging connection block 14 can be adjusted in the vertical direction through the slotted hole on the first mounting surface, and the position of the bridging connection block 14 can be adjusted in the front-rear direction through the slotted hole on the second mounting surface, so that the screw rod 4 and the slider rail 16 can be parallel, and the installation and debugging are convenient.

Optionally, as shown in fig. 3 and 6, the number of the waist-shaped holes of the first mounting surface and the second mounting surface is two. This makes it easy to adjust and fix the jumper connection blocks 14.

Optionally, as shown in fig. 1 to 3, the cavity channel penetrates through two sides of the base 5, the X-beam mechanism further includes a left cover plate 10 and a right cover plate 20, the left cover plate 10 is installed on the left side surface of the base 5, and the right cover plate 20 is installed on the right side surface of the base 5. The two sides of the base 5 are referred to as left and right sides. In the scheme provided by this embodiment, the base 5 is conveniently manufactured, and the X-beam mechanism is conveniently installed and maintained. In other embodiments, two sides of the base 5 may not be penetrated by the cavity channel, and the left and right sides of the base 5 may be used as the left cover plate 10 and the right cover plate 20.

Optionally, as shown in fig. 6 to 7, the X-beam mechanism further includes an upper cover plate 22, the upper cover plate 22 is mounted on the upper side of the base 5, and the cavity channel penetrates through the upper side of the base 5. The addition of the upper cover plate 22 covers the components in the cavity channel and prevents foreign matter from entering the cavity channel.

Alternatively, as shown in fig. 2 and 6, the two position limiting pads 19 are respectively installed on the left cover plate 10 and the right cover plate 20. Therefore, the slide connecting plate 15 can be prevented from colliding with the left cover plate 10 or the right cover plate 20, and parts can be prevented from colliding and being damaged.

Alternatively, as shown in fig. 2, the motor 1 is mounted on the right cover plate 20. The motor 1 is installed on the right cover plate 20, and a power line of the motor 1 can be conveniently arranged on the right side.

Optionally, as shown in fig. 1 and 6, a fixing frame for receiving the integral wiring harness of the X-beam mechanism may be disposed on the right cover plate 20, and the fixing frame extends to the lower side of the right cover plate 20. This prevents the wiring harness from being exposed and damaged.

Alternatively, as shown in fig. 4 and 6, the height of the axis of the screw rod 4 is higher than the height of the upper surface of the slider connecting plate 15; the length of the screw rod 4 is smaller than that of the slider track 16, and a gap is formed between the left fixed seat 7 of the screw rod and the left cover plate 10; the minimum distance between the slide block connecting plate 15 and the lead screw right side fixing seat 3 is 1mm, the minimum distance between the slide block connecting plate 15 and the lead screw left side fixing seat 7 is 1mm, and the slide block connecting plate 15 does not interfere with the lead screw right side fixing seat 3, the lead screw left side fixing seat 7 and the lead screw 4 when moving left and right in the X-axis direction; the X cross bar mechanism further comprises a steel wire 18 and two steel wire pressing sheets 11, the steel wire 18 is located above the sliding block connecting plate 15, and two ends of the steel wire 18 are respectively fixed on the left cover plate 10 and the right cover plate 20 through the two steel wire pressing sheets 11; the frame pressing part comprises a gas pipe joint 9, a left telescopic gas pipe 12 and a right telescopic gas pipe 17; the air pipe joint 9 is arranged on the left cover plate 10, and the inductor 8 is arranged in a gap between the screw rod left side fixing seat 7 and the left cover plate 10; the left telescopic air pipe 12 and the right telescopic air pipe 17 are wound on the steel wire 18; the left end of the left telescopic air pipe 12 is fixed on the left steel wire pressure sheet, and the right end of the left telescopic air pipe 12 is fixed on the air pipe limiting plate 24; the air pipe limiting plate 24 is fixed on the bridging connecting block 14, and the air pipe limiting plate 24 is provided with a notch for fixing an air pipe; the right end of the right telescopic air pipe 17 is fixed on the right steel wire pressing sheet, and the left end of the right telescopic air pipe 17 is fixed on the air pipe limiting plate 24. The air pipe joint 9, the left telescopic air pipe 12 and the right telescopic air pipe 17 are used for supplying air to the air cylinder in the pressing frame part. In the scheme provided by the embodiment, all the parts are arranged in the cavity channel, so that the damage of the parts in the cavity channel caused by external factors can be reduced, and the structure of the X cross rod mechanism is simplified. The both ends of the flexible trachea 12 in left side with the both ends of the flexible trachea 17 in right side are all fixed, the flexible trachea 12 in left side with the equal spiral winding of the flexible trachea 17 in right side is in on the steel wire 18, can guarantee like this the flexible trachea 12 in left side with the smooth and easy and prevent that tearing of the flexible trachea 17 side-to-side motion in right side from leading to leaking gas, prevent that flexible trachea from weighing down or blocking to other parts.

Optionally, as shown in fig. 2 and 3, when the slider connecting plate 15 moves to the leftmost side, the distance between the lead screw nut 6 and the lead screw left side fixing seat 7 is between 10mm and 20 mm; when the slide block connecting plate 15 runs to the rightmost side, the distance between the screw rod nut 6 and the screw rod right side fixing seat 3 is 10-20 mm. For example, the distance between the spindle nut 6 and the left spindle holder 7 is equal to 16 mm. Since both ends of the screw 4 are soft, a buffering space is required to protect the screw 4. The two ends of the screw rod are required to be fixed during machining, so that the clamped area cannot be quenched and has insufficient hardness, and the stroke is not recommended to be used during use, so that a gap is left between the left side and the right side during design to ensure long-term use.

Alternatively, as shown in fig. 2 and 3, when the slider connecting plate 15 runs to the leftmost side, the distance between the slider connecting plate 15 and the left side limit pad 19 is equal to 3 mm. This prevents the slider connecting plate 15 from directly colliding with the left-side stopper pad 19.

Alternatively, as shown in fig. 4 and 5, when the slider connecting plate 15 runs to the rightmost side, the distance between the slider connecting plate 15 and the right-side stopper pad 19 is equal to 3 mm. This prevents the slider connecting plate 15 from directly colliding with the right-side stopper pad 19.

Optionally, the base 5, the left cover plate 10, the right cover plate 20, and the upper cover plate 22 enclose a space, and the coupler 2, the right fixing seat 3 of the lead screw, the lead screw 4, the lead screw nut 6, the left fixing seat 7 of the lead screw, the inductor 8, the air pipe connector 9, the steel wire pressing piece 11, the left telescopic air pipe 12, the lead screw nut mounting block 13, the bridging connection block 14, the slider connection plate 15, the slider rail 16, the right telescopic air pipe 17, the steel wire 18, the limiting pad 19, and the slider 21 are all located in the space. This makes the structure of the X-beam mechanism more compact, and the base 5, the left cover plate 10, the right cover plate 20, and the upper cover plate 22 can prevent the internal components from being exposed and damaged or from depositing dust.

In summary, according to the X-beam mechanism of the plate molding machine provided by the present invention, the screw rod right side fixing seat 3, the screw rod left side fixing seat 7 and the slider rail 16 are installed on the same plane, so that the parallelism between the screw rod 4 and the slider connecting plate 15 is easily adjusted; the limit pads 19 are arranged at two sides of the cavity channel, the length of the slider track 16 can be equal to or close to that of the cavity channel, and the strokes of the screw rod 4 and the slider track 16 can be fully utilized; from the screw nut 6 to the frame pressing part, only three parts of a screw nut mounting block 13, a bridging connecting block 14 and a sliding block connecting plate 15 are used, and the structure of the product is simplified.

The above description is only for the purpose of describing the preferred embodiments of the present invention, and is not intended to limit the scope of the present invention, and any variations and modifications made by those skilled in the art based on the above disclosure are within the scope of the present invention.

Claims (10)

1. An X cross bar mechanism of a template machine is characterized by comprising a motor, a coupler, a lead screw right side fixing seat, a lead screw, a base, a lead screw nut, a lead screw left side fixing seat, an inductor, a lead screw nut mounting block, a bridging connection block, a slide block connection plate, a slide block track, a slide block, two limiting pads and a pressing frame part;

the base is internally provided with a cavity channel, the right-side fixed seat of the screw rod is installed on the right side of the cavity channel, the left-side fixed seat of the screw rod is installed on the left side of the cavity channel, the slider track is installed in the cavity channel, and the right-side fixed seat of the screw rod, the left-side fixed seat of the screw rod and the slider track are installed on the same plane;

the motor is arranged on the left side or the right side of the base, and a shaft of the motor is connected with the screw rod through the coupler;

the screw rod nut and the screw rod nut mounting block are sleeved on the screw rod, and the screw rod nut is mounted on the screw rod nut mounting block;

the right end of the screw rod is installed on the right side fixing seat of the screw rod, the left end of the screw rod is installed on the left side fixing seat of the screw rod, and the screw rod is parallel to the slide block track;

the sliding block is arranged on the sliding block track, and the sliding block connecting plate is arranged on the sliding block; the bridging connection block is used for connecting the screw nut mounting block and the sliding block connecting plate;

the sensor is arranged on the left side or the right side of the cavity channel and used for determining the origin of the lead screw stroke;

the two sides of the cavity channel are respectively provided with one limiting pad, and the limiting pads prevent the sliding block connecting plate from exceeding a preset stroke;

the pressing frame part is connected with the sliding block connecting plate.

2. The X-rail mechanism of a template machine as claimed in claim 1, wherein the shape of the bridging link block is L-shaped, the bridging link block comprises a first mounting surface and a second mounting surface, the first mounting surface is provided with a kidney-shaped hole for connecting the lead screw nut mounting block, and the second mounting surface is provided with a kidney-shaped hole for connecting the slider connecting plate.

3. The X-bar mechanism for a stencil printer of claim 2, wherein the number of the first mounting surface and the second mounting surface is two.

4. The X-rail mechanism of a plate molding machine as claimed in claim 1, wherein said cavity passage extends through both sides of said base, said X-rail mechanism further comprising a left cover plate and a right cover plate, said left cover plate being mounted on a left side of said base, said right cover plate being mounted on a right side of said base.

5. The X-rail mechanism of a plate molding machine of claim 4 further comprising an upper cover plate mounted on the upper side of said base, said cavity passage extending through the upper side of said base.

6. The X-rail mechanism of a stencil printer of claim 4, wherein the two position-limiting pads are mounted on the left and right cover plates, respectively.

7. The X-rail mechanism of a stencil printer of claim 5, wherein the motor is mounted to the right cover plate.

8. The X-bar mechanism for a stencil machine of claim 7, wherein the axis of said screw has a height higher than the height of the upper surface of said slider connecting plate; the length of the screw rod is smaller than that of the slide block track, and a gap is formed between the left side fixing seat of the screw rod and the left cover plate;

the minimum distance between the slide block connecting plate and the screw rod right side fixing seat is 1mm, the minimum distance between the slide block connecting plate and the screw rod left side fixing seat is 1mm, and the slide block connecting plate does not interfere with the screw rod right side fixing seat, the screw rod left side fixing seat and the screw rod when moving left and right in the X-axis direction;

the X cross bar mechanism further comprises a steel wire and two steel wire pressing sheets, the steel wire is positioned above the sliding block connecting plate, and two ends of the steel wire are respectively fixed on the left cover plate and the right cover plate through the two steel wire pressing sheets;

the frame pressing component comprises a gas pipe joint, a left telescopic gas pipe and a right telescopic gas pipe; the air pipe joint is arranged on the left cover plate, and the inductor is arranged in a gap between the left fixed seat of the screw rod and the left cover plate; the left telescopic air pipe and the right telescopic air pipe are wound on the steel wire; the left end of the left telescopic air pipe is fixed on the left steel wire pressure piece, and the right end of the left telescopic air pipe is fixed on the air pipe limiting plate; the gas pipe limiting plate is fixed on the bridging connecting block and is provided with a notch for fixing a gas pipe; the right end of the right telescopic air pipe is fixed on the right steel wire pressing sheet, and the left end of the right telescopic air pipe is fixed on the air pipe limiting plate.

9. The X-bar mechanism of a plate molding machine as claimed in claim 1, wherein when said slide block connecting plate is moved to the leftmost side, the distance between said feed screw nut and said left side fixing seat of feed screw is between 10mm and 20 mm; when the slide block connecting plate moves to the rightmost side, the distance between the screw rod nut and the screw rod right side fixing seat is 10-20 mm.

10. The X-bar mechanism of a stencil printer as claimed in claim 8, wherein the base, the left cover plate, the right cover plate and the upper cover plate enclose a space, and the coupler, the right screw fixing seat, the screw nut, the left screw fixing seat, the sensor, the air pipe connector, the wire pressing piece, the left telescopic air pipe, the screw nut mounting block, the bridging connection block, the slider connection plate, the slider rail, the right telescopic air pipe, the wire, the position-limiting pad and the slider are located in the space.

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