CN115106525A - Powder forming machine slider structure - Google Patents

Abstract

The invention discloses a sliding block structure of a powder forming machine, which comprises a rack, a sliding block component, a guide limiting component and a driving component, wherein the sliding block component is arranged on the rack; the frame comprises a base provided with a sliding block guide through hole; the sliding block assembly comprises a sliding block seat and a sliding block arranged on the sliding block seat, and the sliding block is matched with the sliding block guide through hole and is limited in the sliding block guide through hole by sliding; the driving component is connected with the sliding block component to drive the sliding block component to slide; the guide limiting assembly comprises at least one guide limiting column, one end of the guide limiting column is fixed on the sliding block seat, the other end of the guide limiting column extends along the sliding direction of the sliding block to penetrate through the base, and a guide limiting hole matched with the guide limiting column is formed in the penetrating position of the guide limiting column on the base. The slider structure of the powder forming machine is easier to install, and installation errors caused by manual installation are reduced by means of machining, so that the parallelism and the perpendicularity of the guide limiting column are guaranteed.

Description

Powder forming machine slider structure

Technical Field

The invention relates to the field of powder forming machine equipment, in particular to a sliding block structure of a powder forming machine.

Background

The powder forming machine is a common device in the field of powder metallurgy, and the powder forming machine drives a movable die carrier to move through an internal slide block structure to complete die forming.

Two ends of a guide post in a sliding block structure of the existing powder forming machine are respectively fixed on a frame, and a sliding hole matched with the guide post is arranged on a sliding block to realize sliding guide and limitation on the sliding block; however, the above structure causes troublesome installation of the guide post, and installation errors are generated when two ends of the guide post are installed manually, which affects the parallelism and verticality of the guide.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides a sliding block structure of a powder forming machine, which realizes sliding guide and limitation on a sliding block assembly by installing a guide limiting column on the sliding block assembly and arranging a guide limiting hole on a base, so that the sliding block structure of the powder forming machine is easier to install, installation errors caused by manual installation are reduced by means of machining, and the parallelism and the perpendicularity of the guide limiting column are ensured.

In order to achieve the purpose, the invention is realized by adopting the following technical scheme:

a sliding block structure of a powder forming machine comprises a machine frame, a sliding block assembly, a guide limiting assembly and a driving assembly; the rack comprises a base provided with a sliding block guide through hole; the sliding block assembly comprises a sliding block seat and a sliding block arranged on the sliding block seat, and the sliding block is matched with the sliding block guide through hole and is limited in the sliding block guide through hole in a sliding mode; the driving component is connected with the sliding block component to drive the sliding block component to slide; the guidance limit assembly includes at least one guidance limit post,

one end of the guide limiting column is fixed on the sliding block seat, the other end of the guide limiting column extends through the base along the sliding direction of the sliding block, and a guide limiting hole matched with the guide limiting column is formed at the position, through which the guide limiting column penetrates, of the base.

By adopting the structure, when the driving assembly acts on the slider assembly to enable the slider assembly to slide relative to the base, the guide limiting columns slide synchronously with the slider assembly, and the slider assembly slides more stably and can be limited from rotating relative to the slider guide through holes due to the matching of the guide limiting columns and the lead limiting columns;

in the structure, one end of the guide limiting column is fixed on the sliding block seat, and the other end of the guide limiting column penetrates through the guide limiting hole, so that the sliding block structure of the powder forming machine can be mounted more conveniently;

the base and the sliding block seat of the sliding block structure of the powder forming machine can be machined, so that the arrangement positions of the guide limiting hole and the sliding block guide through hole on the base and the arrangement positions of the guide limiting column and the sliding block on the sliding block seat can be more accurately ensured; therefore, the parallelism between the guide limiting rod and the sliding direction of the sliding block component is ensured, and errors caused by assembly are avoided as much as possible.

Further, the base includes a base plate provided with a sleeve mounting penetration hole and a guide sleeve mounted in the sleeve mounting penetration hole; the guide sleeve inner hole is formed into the slider guide through hole.

Further, the guide limiting columns are arranged in pairs, and the guide limiting columns in each pair of guide limiting columns are symmetrically arranged on two sides of the sliding block.

By adopting the structure, the sliding of the sliding assembly can be more stable; specifically, in some embodiments, the guide limiting column is provided with a pair.

Further, the guide limiting column is detachably fixed on the slider seat.

By adopting the structure, in the long-term use process of the sliding block structure of the powder forming machine, the guide limiting column can be worn, so that the guide limiting column is detachably fixed on the sliding block seat, and the subsequent maintenance and replacement can be facilitated.

Further, the guide limiting column comprises a guide limiting column body and a column body mounting part formed by radially and outwardly protruding one end of the guide limiting column body;

the sliding block seat is provided with a first mounting hole for the guide limiting column body to pass through, and at least part of the edge of the column body mounting part exceeds the edge of the first mounting hole; the part of the column body mounting part, which exceeds the edge of the first mounting hole, is fixed with the slider seat through a first bolt.

By adopting the structure, the column body mounting part, namely the guide limiting column is fixed on the sliding block seat by adopting the first bolt so as to realize the detachable fixation of the guide limiting column.

Further, post body installation department is through a plurality of first bolt is realized fixing, and is a plurality of first bolt is equally spaced to encircle the post body distributes.

By adopting the structure, the guide limiting column can be more stably fixed on the slider seat; specifically, the number of the first bolts is three.

Further, the aperture of the first mounting hole is matched with the diameter of the guide limiting column.

By adopting the structure, the aperture of the first mounting hole is matched with the diameter of the guide limiting column, so that the inner wall of the first mounting hole can play a certain role in limiting and fixing the guide limiting column, the guide limiting column is more stably fixed, and the guide limiting column can be more stressed in the radial direction;

simultaneously the aperture of first mounting hole with the diameter phase-match of direction restriction post makes post body installation department edge all surpasss the edge of first mounting hole is convenient the installation that first bolt installation does.

Further, the slider seat is provided with a counter bore at the position where the first bolt is installed so as to be convenient for hiding the first bolt.

Furthermore, a guide limiting sleeve with the diameter matched with the diameter of the guide limiting column is arranged at the position, penetrated by the guide limiting column, of the base, and an inner hole of the guide limiting sleeve is formed into the guide limiting hole;

the guide limiting sleeve is detachably arranged on the base.

By adopting the structure, the guide limiting hole is abraded in the long-term use process of the sliding block structure of the powder forming machine, so that the guide limiting sleeve is detachably arranged on the base, and the subsequent maintenance and replacement can be facilitated.

Further, the guide limiting sleeve comprises a guide limiting sleeve body with an inner hole formed as the lead limiting hole, and a sleeve body mounting part formed by radially and outwardly protruding the outer wall of the guide limiting sleeve body;

the base is provided with a second mounting hole for mounting and accommodating the guide limiting sleeve body, and at least part of the edge of the sleeve body mounting part exceeds the edge of the mounting hole; the part of the sleeve body mounting part exceeding the edge of the second mounting hole is fixed with the base through a second bolt.

By adopting the structure, the sleeve body mounting part, namely the guide limiting sleeve, is fixed on the base by adopting the second bolt so as to realize the detachable fixation of the guide limiting sleeve.

Further, the sleeve body installation part is fixed through a plurality of second bolts, and the second bolts surround the guide limiting holes at equal intervals.

By adopting the structure, the guide limiting sleeve can be more stably fixed on the base; specifically, the number of the second bolts is four.

Further, the aperture of the second mounting hole is matched with the outer diameter of the guide limiting sleeve body.

By adopting the structure, the aperture of the second mounting hole is matched with the outer diameter of the guide limiting sleeve body, so that the inner wall of the second mounting hole can play a certain role in limiting and fixing the guide limiting sleeve body, and the guide limiting hole of the guide limiting sleeve body can be more stressed in the radial direction;

simultaneously the aperture of second mounting hole with the external diameter phase-match of direction restriction cover body makes cover body installation department edge all surpasss the edge of second mounting hole is convenient the installation that the second bolt installation was done.

Furthermore, the guide limiting sleeve is provided with an oil hole communicated with the guide limiting hole.

By adopting the structure, the lubrication between the guide limiting column and the guide limiting hole is realized through the oil hole.

Further, the driving assembly comprises a driving acting piece and a main shaft capable of rotating; the driving action piece comprises an action part connected with the sliding block assembly and a screw rod part arranged on the action part, the extension direction of the screw rod part is matched with the sliding direction of the sliding block assembly, and the main shaft is in driving fit with the screw rod of the screw rod part.

By adopting the structure, the power part drives the main shaft to rotate, and the main shaft is in driving fit with the screw rod part of the driving action part, so that the driving action part realizes linear motion and drives the sliding block assembly to slide.

Further, the slide block assembly is provided with an action cavity, and the action part is positioned in the action cavity; the action part is of a spherical structure, the action cavity is matched with the action part, and the action part is arranged in the action cavity through a pin structure;

specifically, the sliding block assembly is provided with an installation cavity; an upper ball seat and a lower ball seat are arranged in the mounting cavity, and the inner cavity of the upper ball seat form the action cavity; the side walls of the upper ball seat and the lower ball seat form a limiting hole, a limiting piece is arranged in the limiting hole, and two ends of the pin structure are respectively connected with the limiting pieces positioned on two sides of the pin structure; in the structure, the action part can rotate around the pin structure, and the limiting part can slide along the direction vertical to the pin structure, so that when the axis of the main shaft is not parallel to the sliding direction of the sliding assembly, the driving action part can be adjusted in a self-adaptive mode to ensure transmission.

Further, an air cylinder is arranged on the opposite side of the sliding block seat, which is provided with the sliding block, and the air cylinder is connected with the template; specifically, the number of the cylinders is four, and the cylinders are respectively located at four corners of the sliding block seat.

Further, the powder forming machine slide structure includes a measurement sensor for measuring the amount of force applied by the drive assembly to the slide assembly.

With the structure, the arrangement of the measuring sensor enables an operator to clearly know the force acting on the part and regulate and control the force.

Further, a gap exists between the lower ball seat and the installation cavity to form a pressure oil cavity, the sliding block assembly is provided with a pressure oil path communicated with the pressure oil cavity, and the measuring sensor is arranged on the pressure oil path.

Compared with the prior art, the invention has the following beneficial effects: according to the powder forming machine sliding block structure, the guide limiting columns are arranged on the sliding block assembly, and the guide limiting holes are formed in the base, so that sliding guide and limitation of the sliding block assembly are achieved, the powder forming machine sliding block structure is easier to install, installation errors caused by manual installation are reduced by means of machining, and therefore the parallelism and the perpendicularity of the guide limiting columns are guaranteed.

(2) The sliding block structure of the powder forming machine is reasonable in structure.

Drawings

FIG. 1 is a schematic perspective view of a slider structure of a powder forming machine according to the present invention;

FIG. 2 is a schematic top view of a slider configuration for a powder forming machine according to the present invention;

FIG. 3 is a schematic cross-sectional view of A-A in FIG. 2;

FIG. 4 is an enlarged view at C of FIG. 3;

FIG. 5 is an enlarged view taken at D in FIG. 3;

FIG. 6 is a schematic cross-sectional view of B-B in FIG. 2;

FIG. 7 is an enlarged view at E in FIG. 6;

FIG. 8 is a schematic structural view of a guide and limit sleeve in the slider structure of the powder forming machine of the present invention;

reference numerals: 1, a frame; 101 a base; 1011 guide through hole of the sliding block; 1012 a second mounting hole; 1013a base plate; 1013a sleeve mounting through hole; 1014 a guide sleeve; 2, a sliding block component; 201 a slider seat; 2011 a first mounting hole; 202 a slide block; 203 an action cavity; 204 mounting a cavity; 205, putting a ball seat; 206, placing a ball seat; 207 a limit hole; 208 a stopper; 3 guiding and limiting components; 301 guiding the restraining post; 3011 guiding the restraining post body; 3012 a post body mounting portion; 4 a drive assembly; 401 driving the acting element; 4011 an active portion; 4012 a wire stem section; 5 guiding the limiting hole; 6 guiding a limiting sleeve; 601 guiding a limiting sleeve body; 602, sleeving a body mounting part; 603 oil holes; 7, a cylinder; 8, a pressure oil chamber; 9 pressure oil path.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

As shown in fig. 1-8, a slide 202 structure of a powder forming machine includes a frame 1, a slide assembly 2, a guide restricting assembly 3, and a driving assembly 4; the frame 1 comprises a base 101 provided with a slider guide through-hole 1011; the slide block assembly 2 comprises a slide block seat 201 and a slide block 202 arranged on the slide block seat 201, wherein the slide block 202 is matched with the slide block guide through hole 1011 and is limited in the slide block guide through hole 1011 in a sliding mode; the driving component 4 is connected with the sliding block component 2 to drive the sliding block component to slide; the guiding constraint assembly 3 comprises at least one guiding constraint column 301,

one end of the guide limiting column 301 is fixed on the slider seat 201, and the other end extends through the base 101 along the sliding direction of the slider 202, and a guide limiting hole 5 matched with the guide limiting column 301 is formed at the position where the base 101 is penetrated by the guide limiting column 301.

With the above structure, when the driving assembly 4 acts on the slider assembly 2 to slide relative to the base 101, the guide limiting column 301 slides synchronously with the slider assembly 2, and the sliding of the slider assembly 2 is more stable and the slider assembly 2 can be limited from rotating relative to the slider guide through hole 1011 due to the cooperation of the guide limiting column and the guide limiting column;

in the above structure, one end of the guide limiting column 301 is fixed on the slider seat 201, and the other end passes through the guide limiting hole 5, so that the slider 202 structure of the powder forming machine can be more conveniently mounted;

the base 101 and the slider seat 201 of the slider 202 structure of the powder forming machine can be realized by machining, so that the arrangement positions of the guide limiting hole 5 and the slider guide through hole 1011 on the base 101 and the arrangement positions for fixing the guide limiting column 301 and the slider 202 on the slider seat 201 can be more accurately ensured; thereby ensuring the parallelism of the guide limiting rod and the sliding direction of the sliding block component 2 and avoiding the error caused by assembly as much as possible.

Preferably, the base includes a base plate 1013 provided with a sleeve mounting bore 1013a and a guide sleeve 1014 mounted in the sleeve mounting bore 1013 a; the guide sleeve 1014 bore is formed as the slider guide bore.

Preferably, the guiding limiting columns 301 are arranged in pairs, and the guiding limiting columns 301 in each pair of guiding limiting columns 301 are symmetrically arranged on two sides of the sliding block 202.

By adopting the structure, the sliding of the sliding assembly can be more stable; specifically, in some embodiments, the guide limiting columns 301 are provided in a pair.

Preferably, the guide restricting post 301 is detachably fixed to the slider holder 201.

With the structure, in the long-term use process of the slider 202 structure of the powder forming machine, the guide limiting column 301 is worn, so that the guide limiting column 301 is detachably fixed on the slider seat 201, and the subsequent maintenance and replacement can be facilitated.

Preferably, the guiding limiting column 301 comprises a guiding limiting column body 3011, and one end of the guiding limiting column body 3011 protrudes radially outwards to form a column body mounting part 3012;

a first mounting hole 2011 for the guide limiting post body 3011 to pass through is formed in the slider seat 201, and at least part of the edge of the post body mounting part 3012 exceeds the edge of the first mounting hole 2011; the part of the post body mounting part 3012 beyond the edge of the first mounting hole 2011 is fixed with the slider seat 201 through a first bolt.

With the above-described structure, the guide restricting post 301 serving as the post body mounting portion 3012 is fixed to the slider holder 201 by a first bolt, so that the guide restricting post 301 can be detachably fixed.

Preferably, the pillar body mounting portion 3012 is fixed by a plurality of first bolts, and the plurality of first bolts are distributed around the pillar body at equal intervals.

By adopting the structure, the guide limiting column 301 can be more stably fixed on the slider seat 201; specifically, the number of the first bolts is three.

Preferably, the diameter of the first mounting hole 2011 matches the diameter of the guide limiting column 301.

With the above structure, since the aperture of the first mounting hole 2011 is matched with the diameter of the guide limiting column 301, the inner wall of the first mounting hole 2011 can play a certain role in limiting and fixing the guide limiting column 301, so that the guide limiting column 301 is more stably fixed, and the guide limiting column 301 can be more stressed in the radial direction;

simultaneously the aperture of first mounting hole 2011 with the diameter phase-match of direction restriction post 301 makes post body installation department 3012 edge all surpasss the edge of first mounting hole 2011 is convenient the installation that first bolt installation was done.

Preferably, the slider seat 201 is provided with a counter bore at the position where the first bolt is installed so as to facilitate hiding the first bolt.

Preferably, a guide limiting sleeve 6 with a diameter matched with the diameter of the guide limiting column 301 is arranged at the position where the base 101 is penetrated by the guide limiting column 301, and an inner hole of the guide limiting sleeve 6 is formed into the guide limiting hole 5;

the guide restricting sleeve 6 is detachably mounted on the base 101.

With the structure, in the long-term use process of the sliding block 202 structure of the powder forming machine, the guide limiting hole 5 is worn, so that the guide limiting sleeve 6 is detachably mounted on the base 101, and the subsequent maintenance and replacement can be facilitated.

Preferably, the guide limiting sleeve 6 comprises a guide limiting sleeve body 601 with an inner hole formed as the wire limiting hole, and a sleeve body mounting part 602 formed by radially outwardly protruding the outer wall of the guide limiting sleeve body 601;

a second mounting hole 1012 for mounting and accommodating the guide limiting sleeve body 601 is formed in the base 101, and at least part of the edge of the sleeve body mounting part 602 exceeds the edge of the mounting hole; the portion of the jacket body installation portion 602 beyond the edge of the second installation hole 1012 is fixed to the base 101 by a second bolt.

With the above configuration, the guide restricting sleeve 6, which is the sleeve body mounting portion 602, is fixed to the base 101 by the second bolt, so that the guide restricting sleeve 6 can be detachably fixed.

Preferably, the sleeve body mounting portion 602 is fixed by a plurality of second bolts, and the plurality of second bolts are distributed around the guide limiting hole 5 at equal intervals.

By adopting the structure, the guide limiting sleeve 6 can be more stably fixed on the base 101; specifically, the number of the second bolts is four.

Preferably, the diameter of the second mounting hole 1012 matches the outer diameter of the guide sleeve body 601.

With the structure, as the aperture of the second mounting hole 1012 is matched with the outer diameter of the guide limiting sleeve body 601, the inner wall of the second mounting hole 1012 can play a certain role in limiting and fixing the guide limiting sleeve body 601, so that the guide limiting hole 5 of the guide limiting sleeve body 601 can be more stressed in the radial direction;

meanwhile, the aperture of the second mounting hole 1012 is matched with the outer diameter of the guide limiting sleeve body 601, so that the edge of the sleeve body mounting portion 602 exceeds the edge of the second mounting hole 1012, and the second bolt is conveniently mounted.

Preferably, the guide restricting sleeve 6 is provided with an oil hole 603 communicating with the guide restricting hole 5.

With the above structure, lubrication is performed between the guide restricting post 301 and the guide restricting hole 5 through the oil hole 603.

Preferably, the driving assembly 4 comprises a driving acting piece 401 and a rotatable main shaft; the driving action part 401 comprises an action part 4011 connected with the sliding block assembly 2 and a screw rod part 4012 arranged on the action part 4011, the extending direction of the screw rod part 4012 is matched with the sliding direction of the sliding block assembly 2, and the main shaft is in screw rod driving fit with the screw rod part 4012.

With the above structure, the power member drives the main shaft to rotate, and the main shaft is in driving fit with the screw rod 4012 of the driving action member 401, so that the driving action member 401 realizes linear motion and drives the sliding block assembly 2 to slide.

Preferably, the slide block assembly 2 is provided with an acting cavity 203, and the acting part 4011 is positioned in the acting cavity 203; the action part 4011 is of a spherical structure, the action cavity 203 is matched with the action part 4011, and the action part 4011 is arranged in the action cavity 203 through a pin structure;

specifically, the slider assembly 2 comprises a slider 202 body, an upper ball seat 204 and a lower ball seat 205, an inner cavity of the upper ball seat 204 and an inner cavity of the lower ball seat 205 enclose to form the acting cavity 203, and the slider 202 body is provided with a mounting cavity for mounting the lower ball seat 205 and the upper ball seat 204; the side walls of the upper ball seat 204 and the lower ball seat 205 form a limiting hole 207, a limiting piece 208 is arranged in the limiting hole 207, and two ends of the pin structure are respectively connected with the limiting pieces 208 positioned at two sides of the pin structure; in the above structure, the action portion 4011 can rotate around the pin structure, and the limiting member 208 can slide along the direction perpendicular to the pin structure, so that when the axis of the spindle is not parallel to the sliding direction of the sliding assembly, the driving action member 401 can be adaptively adjusted to ensure transmission.

Preferably, the slider seat 201 is provided with an air cylinder 7 at the opposite side of the slider 202, and the air cylinder 7 is connected with the template; specifically, four air cylinders 7 are provided, and are respectively located at four corners of the slider seat 201.

Preferably, the powder forming machine slide structure includes a measuring sensor for measuring the amount of force applied by the drive assembly 4 to the slide assembly.

With the structure, the arrangement of the measuring sensor enables an operator to clearly know the force acting on the part and regulate and control the force.

Preferably, a gap exists between the lower ball seat 205 and the mounting cavity to form a pressure oil chamber 8, the slider assembly 2 is provided with a pressure oil path 9 communicated with the pressure oil chamber 8, and the measuring sensor is arranged on the pressure oil path 9.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the technical principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A powder forming machine slide (202) construction characterized by: comprises a frame (1), a slide block component (2), a guide limiting component (3) and a driving component (4); the machine frame (1) comprises a base (101) provided with a sliding block guide through hole (1011); the sliding block assembly (2) comprises a sliding block seat (201) and a sliding block (202) arranged on the sliding block seat (201), and the sliding block (202) is matched with the sliding block guide through hole (1011) and is limited in the sliding block guide through hole (1011) in a sliding mode; the driving component (4) is connected with the sliding block component (2) to drive the sliding block component to slide; the guiding and limiting assembly (3) comprises at least one guiding and limiting column (301),

one end of the guide limiting column (301) is fixed on the slider seat (201), the other end of the guide limiting column extends through the base (101) along the sliding direction of the slider (202), and a guide limiting hole (5) matched with the guide limiting column (301) is formed in the position, through which the guide limiting column (301) penetrates, of the base (101).

2. The powder forming machine slide (202) structure of claim 1, wherein: the guide limiting columns (301) are arranged in pairs, and the guide limiting columns (301) in each pair of guide limiting columns (301) are symmetrically arranged on two sides of the sliding block (202).

3. The powder forming machine slide (202) structure of claim 1, wherein: the guide limiting column (301) is detachably fixed on the slider seat (201).

4. The powder forming machine slide (202) structure of claim 3, wherein: the guide limiting column (301) comprises a guide limiting column body (3011) and a column body mounting part (3012) formed by radially and outwards protruding one end of the guide limiting column body (3011);

a first mounting hole (2011) for the guide limiting column body (3011) to pass through is formed in the slider seat (201), and at least part of the edge of the column body mounting part (3012) exceeds the edge of the first mounting hole (2011); the part of the column body installation part (3012) exceeding the edge of the first installation hole (2011) is fixed with the slider seat (201) through a first bolt.

5. The powder forming machine slide (202) structure of claim 4, wherein: the column body mounting part (3012) is fixed by a plurality of first bolts;

the diameter of the first mounting hole (2011) is matched with the diameter of the guide limiting column (301).

6. The powder forming machine slide (202) structure of claim 1, wherein: a guide limiting sleeve (6) with the diameter matched with that of the guide limiting column (301) is arranged at the position, penetrated by the guide limiting column (301), of the base (101), and an inner hole of the guide limiting sleeve (6) is formed into the guide limiting hole (5);

the guide limiting sleeve (6) is detachably mounted on the base (101).

7. The powder forming machine slide (202) structure of claim 6, wherein: the guide limiting sleeve (6) comprises a guide limiting sleeve body (601) with an inner hole formed as the wire limiting hole, and a sleeve body mounting part (602) formed by radially and outwardly protruding the outer wall of the guide limiting sleeve body (601);

the base (101) is provided with a second mounting hole (1012) for mounting and accommodating the guide limiting sleeve body (601), and at least part of the edge of the sleeve body mounting part (602) exceeds the edge of the mounting hole; the part of the sleeve body mounting part (602) exceeding the edge of the second mounting hole (1012) is fixed with the base (101) through a second bolt.

8. The powder forming machine slide (202) structure of claim 7, wherein: the sleeve body mounting part (602) is fixed by a plurality of second bolts;

the diameter of the second mounting hole (1012) is matched with the outer diameter of the guide limiting sleeve body (601).

9. The powder forming machine slide (202) structure of claim 1, wherein: the driving assembly (4) comprises a driving acting piece (401) and a rotatable main shaft; the driving action piece (401) comprises an action part (4011) connected with the sliding block assembly (2) and a threaded rod part (4012) arranged on the action part (4011), the extension direction of the threaded rod part (4012) is matched with the sliding direction of the sliding block assembly (2), and the main shaft is in driving fit with a threaded rod of the threaded rod part (4012);

the slide block assembly (2) is provided with an action cavity (203), and the action part (4011) is positioned in the action cavity (203); action portion (4011) is globular structure, action chamber (203) with action portion (4011) phase-match, action portion (4011) is installed through the pin structure in action chamber (203).

10. The powder forming machine slide (202) structure of claim 1, wherein: the sliding block seat (201) is provided with an air cylinder (7) on the opposite side of the sliding block (202), and the air cylinder (7) is connected with the template.

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