CN215824088U - Stamping die for power distribution cabinet propulsion mechanism production - Google Patents

Abstract

The utility model discloses a stamping die for producing a pushing mechanism of a power distribution cabinet, which comprises a first pressing plate, a buffer rod, a top block, a positioning rod and a positioning structure, wherein the positioning rod is arranged at the upper end of a bottom plate, and an insert rod can roll a top bead when embedded into the positioning structure, so that the friction force of the insert rod is reduced, and the advantage of preventing the insert rod from being worn is achieved; through having set up location structure in clamp plate an upper end, when the inserted bar inlays, can press movable pearl and move about at the activity inslot side, thereby lead the inserted bar, make the inserted bar steadily stretch into, and the inserted bar can press the clamp plate and move down the lower extreme, make the pressure spring produce the deformation shrink, reduce the impact force of inserted bar, when the inserted bar withdraws from, the pressure spring can drive clamp plate one through the elastic potential energy that resumes deformation and resume to original position, seal fixed cover, reached can lead the advantage that prevents the dust entering to the inserted bar.

Description

Stamping die for power distribution cabinet propulsion mechanism production

Technical Field

The utility model particularly relates to a stamping die for producing a pushing mechanism of a power distribution cabinet, and relates to the related field of power distribution cabinets.

Background

The power distribution cabinet (box) is a final-stage device of a power distribution system, is a general name of a motor control center and is used in occasions with dispersed loads and less loops; the motor control center is used for occasions with concentrated loads and more loops.

When switch board advancing mechanism produced, often need use stamping die, present stamping die is when using, and past will moving die pushes down to the stationary mould upper end down, but when moving die removed, can produce the skew, lead to the wearing and tearing of location axle.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the above-mentioned defects, the present invention provides a stamping die for the production of a power distribution cabinet pushing mechanism.

The stamping die comprises a bottom plate, a lower template, an upper template, a first pressing plate, a buffer rod, a top block, a positioning rod and a positioning structure, wherein the lower template is arranged at the top of the bottom plate, the upper template is arranged at the top of the lower template, the positioning rod is arranged at the upper end of the bottom plate, the positioning structure is embedded and installed at the upper end of the upper template, the positioning rod comprises a bearing block, an inserted rod, a limiting groove and a top bead, the bottom of the bearing block is fixed with the bottom plate, the top of the bearing block is provided with inserted rods, the limiting grooves are equidistantly distributed at the upper ends of the inserted rods, and the top of the inserted rods is embedded and installed with the top bead.

Furthermore, a first pressing plate is installed at the upper end of the upper die plate, buffering rods are distributed at the upper end of the first pressing plate at equal intervals, and the first pressing plate is fixed with the bottom of the top block.

Further, location structure includes sliding sleeve, fixed cover, movable frame, activity pearl, clamp plate two, presses frame and pressure spring, fixed cover embedding is installed in the cope match-plate pattern inboard, the sliding sleeve is fixed with fixed cover rear end, fixed cover inboard is provided with the movable frame, movable frame upper end activity nested has the activity pearl, clamp plate two imbeds in fixed cover inboard, clamp plate two is fixed mutually with pressing the frame upper end, press the frame to pass through pressure spring and the inside lower extreme elastic connection of sliding sleeve.

Furthermore, the movable beads are eight in number and are distributed at equal intervals along the inner side of the movable frame.

Furthermore, the upper end of the second pressing plate is in a groove shape, and the size of the groove at the upper end of the second pressing plate is matched with that of the top bead.

Furthermore, the second pressing plate and the pressing frame are vertically distributed, and the pressure spring is embedded into the inner side of the pressing frame.

Furthermore, the sliding sleeve and the fixed sleeve are both cylindrical, and the inner side walls of the sliding sleeve and the fixed sleeve are both smooth.

Furthermore, the number of the limiting grooves is eight, and the size of the limiting grooves is matched with that of the movable beads.

Furthermore, the pressure spring is made of spring steel and has excellent elastic potential energy.

Furthermore, the movable beads are made of stainless steel and have high hardness.

The utility model has the following advantages: the utility model provides a stamping die for producing a power distribution cabinet pushing mechanism through improvement, which has the following improvement compared with the same type of equipment:

the method has the advantages that: according to the stamping die for producing the power distribution cabinet propulsion mechanism, the positioning rod is arranged at the upper end of the bottom plate, and the ejector balls can roll when the insertion rod is embedded into the inner side of the positioning structure, so that the friction force of the insertion rod is reduced, and the advantage of preventing the insertion rod from being abraded is achieved.

The method has the advantages that: according to the stamping die for producing the power distribution cabinet propulsion mechanism, the positioning structure is arranged at the upper end of the pressing plate, when the insertion rod is inserted, the movable ball can be pressed to move on the inner side of the movable groove, so that the insertion rod is guided, the insertion rod can stably extend into the movable groove, the insertion rod can press the pressing plate to move towards the lower end, the pressure spring is deformed and contracted, the impact force of the insertion rod is reduced, when the insertion rod is withdrawn, the pressure spring can drive the pressing plate to recover to the original position through the elastic potential energy for recovering the deformation, the fixed sleeve is sealed, and the advantages that the insertion rod can be guided and dust can be prevented from entering are achieved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic cross-sectional view of a platen according to the present invention;

FIG. 3 is a schematic perspective view of a positioning rod according to the present invention;

FIG. 4 is a schematic perspective view of a positioning structure according to the present invention;

FIG. 5 is a schematic cross-sectional view of a positioning structure according to the present invention.

Wherein: the device comprises a bottom plate-1, a lower template-2, a positioning rod-3, an upper template-4, a pressure plate-5, a positioning structure-6, a buffer rod-7, a top block-8, a bearing block-31, an inserted rod-32, a limiting groove-33, a top bead-34, a sliding sleeve-61, a fixed sleeve-62, a movable frame-63, a movable bead-64, a pressure plate-65, a pressure frame-66 and a pressure spring-67.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 5, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 and 2, the utility model provides a stamping die for producing a propulsion mechanism of a power distribution cabinet through improvement, which comprises a bottom plate 1, a lower template 2, an upper template 4, a first pressing plate 5, buffer rods 7, a top block 8, positioning rods 3 and a positioning structure 6, wherein the lower template 2 is arranged at the top of the bottom plate 1, the upper template 4 is arranged at the top of the lower template 2, the positioning rods 3 are arranged at the upper end of the bottom plate 1, the positioning structure 6 is embedded in the upper end of the upper template 4, the first pressing plate 5 is arranged at the upper end of the upper template 4, the buffer rods 7 are equidistantly distributed at the upper end of the first pressing plate 5, and the first pressing plate 5 is fixed with the bottom of the top block 8.

Referring to fig. 3, the present invention provides a stamping die for producing a power distribution cabinet propulsion mechanism through an improvement, wherein a positioning rod 3 includes a receiving block 31, an insertion rod 32, a limiting groove 33 and a top ball 34, the bottom of the receiving block 31 is fixed with a bottom plate 1, the top of the receiving block 31 is provided with the insertion rod 32, the upper end of the insertion rod 32 is equidistantly distributed with the limiting groove 33, the top of the insertion rod 32 is embedded with the top ball 34, the number of the limiting grooves 33 is eight, and the size of the limiting groove 33 is identical to that of the movable ball 64, so as to facilitate the embedding of the movable ball 64.

Referring to fig. 4 and 5, the present invention provides a stamping die for producing a pushing mechanism of a power distribution cabinet by improvement, wherein a positioning structure 6 includes a sliding sleeve 61, a fixed sleeve 62, a movable frame 63, a movable bead 64, a pressing plate two 65, a pressing frame 66 and a pressure spring 67, the fixed sleeve 62 is embedded in the inner side of an upper template 4, the sliding sleeve 61 is fixed with the rear end of the fixed sleeve 62, the movable frame 63 is arranged on the inner side of the fixed sleeve 62, the movable bead 64 is movably embedded at the upper end of the movable frame 63, the pressing plate two 65 is embedded in the inner side of the fixed sleeve 62, the pressing plate two 65 is fixed with the upper end of the pressing frame 66, the pressing frame 66 is elastically connected with the inner lower end of the sliding sleeve 61 through the pressure spring 67, the movable beads 64 are eight in total, the movable beads 64 are equidistantly distributed along the inner side of the movable frame 63, the upper end of the pressing plate two 65 is in a groove shape, the size of the upper end of the pressing plate two 65 is matched with the top bead 34, the pressing plate two 65 and the pressing frame 66 are vertically distributed, and the pressure spring 67 is embedded into the inner side of the pressure frame 66, the sliding sleeve 61 and the fixed sleeve 62 are both cylindrical, the inner side walls of the sliding sleeve 61 and the fixed sleeve 62 are both smooth, the insertion rod 32 can be inserted into the sliding sleeve conveniently, the pressure spring 67 is made of spring steel, the elastic potential energy is excellent, the movable bead 64 is made of stainless steel, and the hardness is high.

The utility model provides a stamping die for producing a propulsion mechanism of a power distribution cabinet through improvement, and the working principle is as follows;

firstly, before use, a stamping die for producing a pushing mechanism of a power distribution cabinet is horizontally placed, so that a bottom plate 1 fixedly supports the die;

secondly, when the stamping die is used, the upper die plate 4 is arranged at the right upper end of the lower die plate 2, and the ejector block 8 is pressed down through a stamping machine, so that the upper die plate 4 is matched with the lower die plate 2 to stamp and form materials;

thirdly, when the inserted link 32 is embedded, the movable ball 64 is pressed to move inside the movable groove 63, so that the inserted link 32 is guided, the inserted link 32 stably extends into the movable groove, and the inserted link 32 presses the second pressing plate 65 to move towards the lower end, so that the pressure spring 67 is deformed and contracted, and the impact force of the inserted link 32 is reduced;

fourthly, when the inserted link 32 is embedded in the inner side of the positioning structure 6, the top bead 34 can roll, so that the friction force of the inserted link 32 is reduced, and the inserted link 32 can be prevented from being worn;

fifthly, when the inserted link 32 withdraws, the pressure spring 67 can drive the second pressing plate 65 to recover to the original position through the elastic potential energy of the recovery deformation, so as to seal the fixed sleeve 62, thereby guiding the inserted link 32 and preventing dust from entering.

According to the stamping die for the production of the power distribution cabinet propulsion mechanism, the positioning rod 3 is arranged at the upper end of the bottom plate 1, and the top bead 34 can roll when the inserted rod 32 is embedded into the inner side of the positioning structure 6, so that the friction force of the inserted rod 32 is reduced, and the advantage of preventing the inserted rod 32 from being abraded is achieved; through having set up location structure 6 in 5 upper ends of clamp plate, when inserted bar 32 inlays, can press movable bead 64 and move about in activity groove 63 inboard, thereby lead inserted bar 32, make inserted bar 32 steadily stretch into, and inserted bar 32 can press two 65 down end movements of clamp plate, make pressure spring 67 produce the deformation shrink, reduce the impact force of inserted bar 32, when inserted bar 32 withdraws from, pressure spring 67 can drive two 65 of clamp plate and resume to original position through the elastic potential energy that resumes deformation, seal fixed cover 62, reached and to have led and prevent the advantage that the dust got into to inserted bar 32.

Claims (8)

1. A stamping die for producing a power distribution cabinet propulsion mechanism comprises a bottom plate (1), a lower template (2), an upper template (4), a first pressing plate (5), a buffer rod (7) and a top block (8), wherein the lower template (2) is arranged at the top of the bottom plate (1), and the upper template (4) is arranged at the top of the lower template (2);

the method is characterized in that: still include locating lever (3) and location structure (6), bottom plate (1) upper end is provided with locating lever (3), location structure (6) embedding is installed in cope match-plate pattern (4) upper end, locating lever (3) are including holding piece (31), inserted bar (32), spacing groove (33) and ejector pin (34), it is fixed mutually with bottom plate (1) to hold piece (31) bottom, it is provided with inserted bar (32) to hold piece (31) top, inserted bar (32) upper end equidistance distributes and has spacing groove (33), ejector pin (32) top embedding is installed and is pushed up pearl (34).

2. The stamping die for the production of the pushing mechanism of the power distribution cabinet according to claim 1, wherein: the upper die plate is characterized in that a first pressing plate (5) is installed at the upper end of the upper die plate (4), buffer rods (7) are distributed at the upper end of the first pressing plate (5) at equal intervals, and the first pressing plate (5) is fixed with the bottom of the top block (8).

3. The stamping die for the production of the pushing mechanism of the power distribution cabinet according to claim 1, wherein: location structure (6) include sliding sleeve (61), fixed cover (62), movable frame (63), activity pearl (64), clamp plate two (65), press frame (66) and pressure spring (67), fixed cover (62) embedding is installed in cope match-plate pattern (4) inboardly, sliding sleeve (61) are fixed with fixed cover (62) rear end, fixed cover (62) inboard is provided with movable frame (63), movable frame (63) upper end activity nested has activity pearl (64), clamp plate two (65) are embedded in fixed cover (62) inboard, clamp plate two (65) are fixed mutually with pressing frame (66) upper end, press frame (66) through pressure spring (67) and the inside lower extreme elastic connection of sliding sleeve (61).

4. The stamping die for the production of the pushing mechanism of the power distribution cabinet according to claim 3, wherein: the movable beads (64) are eight in number, and the movable beads (64) are distributed along the inner side of the movable frame (63) at equal intervals.

5. The stamping die for the production of the pushing mechanism of the power distribution cabinet according to claim 3, wherein: the upper end of the second pressing plate (65) is in a groove shape, and the size of the groove at the upper end of the second pressing plate (65) is matched with that of the top bead (34).

6. The stamping die for the production of the pushing mechanism of the power distribution cabinet according to claim 3, wherein: the second pressure plate (65) and the pressure frame (66) are vertically distributed, and the pressure spring (67) is embedded into the inner side of the pressure frame (66).

7. The stamping die for the production of the pushing mechanism of the power distribution cabinet according to claim 3, wherein: the sliding sleeve (61) and the fixed sleeve (62) are both cylindrical, and the inner side walls of the sliding sleeve (61) and the fixed sleeve (62) are both smooth.

8. The stamping die for the production of the pushing mechanism of the power distribution cabinet according to claim 1, wherein: the number of the limiting grooves (33) is eight, and the size of the limiting grooves (33) is matched with that of the movable beads (64).

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