CN114321175B

CN114321175B - Low-delay laminated sliding block

Info

Publication number: CN114321175B
Application number: CN202111531129.1A
Authority: CN
Inventors: 吴明; 舒伟国
Original assignee: Zhejiang Taiding Technology Co ltd
Current assignee: Zhejiang Taiding Technology Co ltd
Priority date: 2021-12-15
Filing date: 2021-12-15
Publication date: 2024-04-02
Anticipated expiration: 2041-12-15
Also published as: CN114321175A

Abstract

The invention provides a low-delay laminated sliding block, and relates to the technical field of sliding blocks. The low-delay laminated sliding block comprises a sliding block body, wherein an installation cover is nested on the outer surface of the sliding block body, and the installation cover is fixedly connected between the sliding block bodies through bolts. The sliding block body is sleeved on the surface of the guide rail, and the limit protrusions on the two sides of the sliding block body are matched with the guide rail to limit the sliding block body, then in order to enable steel balls at all positions to be stably propped against the surface of the guide rail, the positions of the ball frames in the storage groove are adjusted through the ball adjusting assembly, so that the ball frames drive the steel balls on the ball frames to move towards the surface of the guide rail, the sliding block body can be prevented from shaking on the surface of the guide rail, the sliding stability of the sliding block body on the surface of the guide rail is guaranteed, and therefore the inner surface of the sliding block body is prevented from being in direct contact with the surface of the guide rail, and the delay of the sliding block body in sliding on the guide rail can be reduced.

Description

Low-delay laminated sliding block

Technical Field

The invention relates to the technical field of sliders, in particular to a low-delay laminated slider.

Background

The slide block is a mold assembly which can slide in a direction perpendicular to or at a certain angle with the mold opening and closing direction in the mold opening and closing operation of the mold. When the product structure makes the mold unable to be demolded normally without using the slide block, the slide block is used. The material itself has proper hardness, wear resistance and enough friction to withstand movement. The hardness of the cavity part or the core part on the sliding block is the same as that of other parts of the cavity mold core.

The existing sliding block is easy to install on the guide rail, the opening is often larger, but the sliding block can shake on the surface of the guide rail, so that the sliding block is unstable in sliding, in addition, after the existing sliding block is used for a long time, the existing sliding block can slide on the guide rail due to consumption of lubricating liquid, and the sliding delay of the existing sliding block is difficult to quickly reduce under the condition that the body is not dismounted, so that the maintenance efficiency of staff is not facilitated.

Disclosure of Invention

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a low-delay laminated slider, includes the slider body, the surface nestification of slider body is provided with the installation cover, and the installation cover passes through bolt fixed connection between the slider body, a plurality of location screw holes have all been seted up to the top and the left and right sides both ends of installation cover, the both ends inside wall of slider body all is provided with spacing arch, and spacing bellied upper and lower both ends all incline to the middle side and set up, two spacing bellied front end has all been seted up the mounting groove, two the mounting groove all is provided with ball adjusting part, the front end of slider body is close to spacing bellied position all is provided with the storage groove, two spacing bellied upper and lower both ends inclined plane has all been seted up, each the inboard of storage groove all sliding connection has the ball frame, each the inboard of ball frame all inlays and is equipped with a plurality of steel balls, and the partial surface extension of oiling steel ball frame to the outside.

Preferably, the top end of the sliding block body and the positions of the left end and the right end, close to the edges, of the sliding block body are provided with mounting sliding grooves, the positions, corresponding to the mounting sliding grooves, of the inner surface of the mounting cover are provided with mounting protrusions, and the mounting protrusions are embedded into the inner sides of the mounting sliding grooves.

Preferably, the ball adjusting assembly comprises two mounting seats, the two mounting seats are respectively arranged on the inner top side and the inner bottom side of the mounting groove, one end, close to the storage groove, of each mounting seat is rotationally connected with a plurality of driving screws, each driving screw extends to the inner side of the storage groove and is in threaded connection with the ball frame, one side, close to the mounting seat, of each driving screw is fixedly connected with a driving worm wheel, one end, close to the storage groove, of each mounting seat is provided with a driving worm, each driving worm is rotationally connected to the inner side of the mounting groove, and the two driving worms are in meshed connection with the adjacent driving worm wheels.

Preferably, two the first runner groove has all been seted up to the inside one end of mounting groove is kept away from to the drive worm, the port department of mounting groove is through bolt fixedly connected with limit cap, the surface of limit cap corresponds the position of drive worm and all rotates to be connected with and adjusts the runner, each it is all fixedly connected with spacing prism to adjust the one end that the runner is close to the drive worm, and spacing prism inlays in the inboard of first runner groove, each the second runner groove has all been seted up to the surface of adjusting the runner.

Preferably, each mounting seat is fixedly connected to the inner side wall of the mounting groove through a bolt.

Preferably, the oiling subassembly includes first oil filler groove and second oil filler groove, first oil filler groove and second oil filler groove are all offered in the front end of slider body, first oil filler groove is located the top side of mounting groove, the second oil filler groove is located the side of mounting groove, first oil drain groove has evenly been offered to a side bottom that first oil filler groove is close to slider body internal surface, and first oil drain groove and slider body's internal surface link up each other, second oil drain groove has evenly been offered to a side bottom that the second oil filler groove is close to the mounting groove, and second oil drain groove and mounting groove's internal surface link up each other.

Preferably, the sealing plugs are embedded at the ports of the first oil injection groove and the second oil injection groove.

(one) advantageous effects

The invention provides a low-delay laminated sliding block. The beneficial effects are as follows:

1. according to the low-delay laminated sliding block, the sliding block body is sleeved on the surface of the guide rail, the limiting protrusions on the two sides of the sliding block body are matched with the guide rail to limit the sliding block body, then in order to enable steel balls at all positions to be stably propped against the surface of the guide rail, the positions of the ball frames in the storage groove are adjusted through the ball adjusting assembly, so that the ball frames drive the steel balls on the ball frames to move to the surface of the guide rail, the sliding block body can be prevented from shaking on the surface of the guide rail, the sliding stability of the sliding block body on the surface of the guide rail is guaranteed, and therefore the inner surface of the sliding block body is prevented from being in direct contact with the surface of the guide rail, and the delay of the sliding block body in sliding on the guide rail can be reduced.

2. This low-delay laminated sliding block, through injecting lubricating oil in the oiling subassembly, the oiling subassembly is with the lubrication oil respectively direction spacing bellied topside surface and the interior bottom of mounting groove, the lubrication oil of the spacing bellied topside of direction can correspondingly permeate between each steel ball that is in the topside and flow to the guide rail surface, and the inside lubrication oil of leading-in mounting groove can permeate the storage tank of bottom side to permeate between each steel ball that is in the bottom side through this storage tank, consequently be convenient for accomplish the lubrication of this sliding structure in slider body fast, be favorable to reducing the delay nature of this slider body after long-time use fast.

3. The low-delay laminated sliding block can be used for butt-jointing workpieces on positioning screw holes at different positions on the surface of the installation cover according to actual conditions, and the installation cover for installing the workpieces is fixed on the outer side of the sliding block body, so that the workpieces can be installed at different positions on the surface of the sliding block body, and the application range of the sliding block body is conveniently enlarged.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a perspective view of a slider body according to the present invention;

FIG. 3 is a schematic view of the internal structure of the installation groove of the present invention;

fig. 4 is a schematic perspective view of an adjusting swivel according to the present invention.

1, a sliding block body; 101. installing a chute; 102. a limit protrusion; 103. a mounting groove; 104. a storage groove; 2. a mounting cover; 201. mounting the bulge; 202. positioning screw holes; 3. a ball holder; 301. steel balls; 4. a mounting base; 5. a drive worm wheel; 6. a drive screw; 7. a drive worm; 8. a first turret slot; 9. a limit cover; 10. adjusting the swivel; 1001. a limit prism; 1002. a second swivel groove; 11. a first oil injection groove; 1101. a first oil drain groove; 12. a second oil injection groove; 1201. a second oil drain groove; 13. and (5) sealing.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-4, the embodiment is a special double-sided ball transfer trainer for football training, including a slider body 1, the outer surface nesting of the slider body 1 is provided with a mounting cover 2, and the mounting cover 2 is fixedly connected between the slider body 1 through bolts, a plurality of positioning screw holes 202 are respectively formed at the top and left and right ends of the mounting cover 2, spacing protrusions 102 are respectively formed at inner side walls at two ends of the slider body 1, upper and lower ends of the spacing protrusions 102 are respectively arranged in a tilting manner, mounting grooves 103 are respectively formed at front ends of the two spacing protrusions 102, ball adjusting assemblies are respectively formed at the two mounting grooves 103, storage grooves 104 are respectively formed at front ends of the slider body 1 close to the spacing protrusions 102, ball frames 3 are respectively slidingly connected at inner sides of the two spacing protrusions 102, a plurality of balls 301 are respectively embedded at inner sides of the ball frames 3, and part surfaces of the balls 301 extend to outer sides of the ball frames 3.

The top end and the left and right ends of the sliding block body 1 are provided with mounting sliding grooves 101 close to the edges, mounting protrusions 201 are arranged on the inner surface of the mounting cover 2 corresponding to the positions of the mounting sliding grooves 101, and the mounting protrusions 201 are embedded into the inner sides of the mounting sliding grooves 101;

when the installation cover 2 is installed, the installation protrusions 201 of the installation cover 2 are embedded into the installation sliding grooves 101 of the sliding block body 1, and the installation cover 2 and the screw holes on the surface of the sliding block body 1 can be aligned fast, so that the installation efficiency of the installation cover 2 and the sliding block body 1 can be improved conveniently.

The ball adjusting assembly comprises two mounting seats 4, the two mounting seats 4 are respectively arranged on the inner top side and the inner bottom side of a mounting groove 103, one ends of the two mounting seats 4 close to a storage groove 104 are respectively connected with a plurality of transmission screws 6 in a rotating mode, the transmission screws 6 extend to the inner side of the storage groove 104 and are in threaded connection with the ball frame 3, one sides of the transmission screws 6 close to the mounting seats 4 are respectively fixedly connected with a transmission worm wheel 5, one ends of the mounting seats 4 close to the storage groove 104 are respectively provided with a transmission worm 7, the transmission worm 7 is connected to the inner side of the mounting groove 103 in a rotating mode, and the two transmission worm 7 are respectively connected with the adjacent transmission worm wheels 5 in a meshed mode;

the corresponding transmission worm gears 5 are simultaneously driven to rotate by driving the transmission worm 7, so that the transmission screws 6 in the same row can be simultaneously rotated, and the ball frame 3 at the side can be conveniently driven to slide along the accommodating groove 104, so that the distance between the steel balls 301 at the side and the surface of the guide rail can be conveniently adjusted.

The two transmission worms 7 are respectively provided with a first turning groove 8 at one end far away from the inside of the mounting groove 103, the port of the mounting groove 103 is fixedly connected with a limit cover 9 through a bolt, the positions of the outer surfaces of the limit covers 9 corresponding to the transmission worms 7 are respectively and rotatably connected with an adjusting turning head 10, one end, close to the transmission worm 7, of each adjusting turning head 10 is respectively and fixedly connected with a limit prism 1001, the limit prisms 1001 are embedded in the inner side of the first turning groove 8, and the outer surfaces of the adjusting turning heads 10 are respectively provided with a second turning groove 1002;

the limiting cover 9 is arranged at the port of the mounting groove 103, so that external dust can be prevented from directly entering the mounting groove 103, and a worker can conveniently drive the transmission worm 7 to rotate by driving the adjusting rotor 10 outside the limiting cover 9 by embedding the limiting prism 1001 on the adjusting rotor 10 into the first rotor groove 8 of the transmission worm 7.

Each mounting seat 4 is fixedly connected to the inner side wall of the mounting groove 103 through bolts;

through designing mount pad 4 into detachable structure, can promote this ball adjusting part's maintainability, conveniently change the part.

The oiling assembly comprises a first oiling groove 11 and a second oiling groove 12, wherein the first oiling groove 11 and the second oiling groove 12 are formed in the front end of the sliding block body 1, the first oiling groove 11 is located on the top side of the mounting groove 103, the second oiling groove 12 is located on the side edge of the mounting groove 103, a first oil drain groove 1101 is uniformly formed in the bottom of one side, close to the inner surface of the sliding block body 1, of the first oiling groove 11, the first oil drain groove 1101 is communicated with the inner surface of the sliding block body 1, a second oil drain groove 1201 is uniformly formed in the bottom of one side, close to the mounting groove 103, of the second oiling groove 12, and the second oil drain groove 1201 is communicated with the inner surface of the mounting groove 103;

by injecting the lubricating oil into the first oil injection groove 11, the lubricating oil in the groove can correspondingly infiltrate between the steel balls 301 at the top side and flow to the surface of the guide rail through the first oil discharge grooves 1101, and the lubricating oil is injected into the second oil injection groove 12, the lubricating oil in the groove correspondingly infiltrates into the accommodating groove 104 at the bottom side through the second oil discharge grooves 1201, and infiltrates between the steel balls 301 at the bottom side through the accommodating groove 104, so that the lubrication of the sliding structure inside the sliding block body 1 can be completed conveniently and rapidly, and the delay of the sliding block body 1 after long-time use can be reduced rapidly.

Sealing plugs 13 are embedded at the ports of the first oil injection groove 11 and the second oil injection groove 12;

the sealing plug 13 can be used for blocking the ports of the first oil injection groove 11 and the second oil injection groove 12, so as to prevent external dust from penetrating into the first oil injection groove 11 and the second oil injection groove 12, and simultaneously prevent oil in the first oil injection groove 11 and the second oil injection groove 12 from directly flowing out from the oil injection positions.

The specific implementation manner of the embodiment is as follows:

according to the actual situation, workpieces are butted on the positioning screw holes 202 at different positions on the surface of the installation cover 2, the installation cover 2 for installing the workpieces is fixed on the outer side of the sliding block body 1, and the workpieces can be installed at different positions on the surface of the sliding block body 1, so that the application range of the sliding block body 1 is conveniently enlarged, the sliding block body 1 is sleeved on the surface of the guide rail, the limiting protrusions 102 on the two sides of the sliding block body are matched with the guide rail to limit the sliding block body 1, and then in order to enable the steel balls 301 everywhere to stably prop against the surface of the guide rail, the positions of the ball frames 3 in the accommodating grooves 104 are regulated through the ball regulating assembly, so that the ball frames 3 drive the steel balls 301 on the ball frames to move towards the surface of the guide rail, the sliding block body 1 can be prevented from shaking on the surface of the guide rail, the sliding stability of the sliding block body 1 on the surface of the guide rail is guaranteed, the inner surface of the sliding block body 1 is prevented from being directly contacted with the surface of the guide rail, and the delay of the sliding block body 1 when sliding on the guide rail is prevented;

through injecting lubricating oil in the oiling subassembly, the oiling subassembly is with the lubrication oil top side surface of spacing protruding 102 and the interior bottom side of mounting groove 103 respectively, and the lubricating oil of the guide spacing protruding 102 top side can correspondingly permeate between each steel ball 301 that is in the top side and flow to the guide rail surface, and the inside lubricating oil of leading into mounting groove 103 can permeate the storage groove 104 of bottom side to permeate between each steel ball 301 that is in the bottom side through this storage groove 104, consequently be convenient for accomplish the lubrication of this slider body 1 inside sliding structure fast, be favorable to reducing the delay nature of this slider body 1 after long-time use fast.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Low-delay laminated slider comprising a slider body (1), characterized in that: the novel sliding block comprises a sliding block body (1), wherein an installation cover (2) is nested on the outer surface of the sliding block body (1), the installation cover (2) is fixedly connected between the sliding block body (1) through bolts, a plurality of positioning screw holes (202) are formed in the top end and the left end and the right end of the installation cover (2), limit protrusions (102) are formed in the inner side walls of the two ends of the sliding block body (1), the upper end and the lower end of each limit protrusion (102) are obliquely arranged in the middle, installation grooves (103) are formed in the front ends of the two limit protrusions (102), ball adjusting assemblies are arranged in the two installation grooves (103), oiling assemblies are arranged at positions, close to the limit protrusions (102), of the front ends of the sliding block body (1), storage grooves (104) are formed in inclined planes of the upper end and the lower end of each limit protrusion (102), ball frames (3) are slidably connected to the inner sides of the storage grooves (104), a plurality of steel balls (301) are embedded in the inner sides of the ball frames (3), and part of the surfaces of the steel balls (301) extend to the outer sides of the ball frames (3);

the ball adjusting assembly comprises two mounting seats (4), wherein the two mounting seats (4) are respectively arranged on the inner top side and the inner bottom side of a mounting groove (103), one ends, close to the storage groove (104), of the two mounting seats (4) are respectively connected with a plurality of transmission screws (6) in a rotating mode, the transmission screws (6) extend to the inner sides of the storage groove (104) and are in threaded connection with the ball frame (3), one sides, close to the mounting seats (4), of the transmission screws (6) are respectively fixedly connected with a transmission worm wheel (5), one ends, close to the storage groove (104), of the mounting seats (4) are respectively provided with a transmission worm (7), the transmission worms (7) are connected to the inner sides of the mounting groove (103) in a rotating mode, and the two transmission worm (7) are respectively connected with the adjacent transmission worm wheels (5) in a meshed mode;

the oiling subassembly includes first oil filler (11) and second oil filler (12), first oil filler (11) and second oil filler (12) are all offered in the front end of slider body (1), first oil filler (11) are located the top side of mounting groove (103), second oil filler (12) are located the side of mounting groove (103), first oil filler (1101) have evenly been offered to one side bottom that first oil filler (11) are close to slider body (1) internal surface, and first oil filler (1101) link up each other with the internal surface of slider body (1), second oil filler (1201) have evenly been offered to one side bottom that second oil filler (12) are close to mounting groove (103), and second oil filler (1201) link up each other with the internal surface of mounting groove (103).

2. A low latency laminated slider as claimed in claim 1, wherein: the sliding block is characterized in that mounting sliding grooves (101) are formed in the positions, close to the edges, of the top end and the left end and the right end of the sliding block body (1), mounting protrusions (201) are arranged on the inner surface of the mounting cover (2) corresponding to the positions of the mounting sliding grooves (101), and the mounting protrusions (201) are embedded into the inner sides of the mounting sliding grooves (101).

3. A low latency laminated slider as claimed in claim 1, wherein: two drive worm (7) keep away from inside one end of mounting groove (103) and have all seted up first runner groove (8), the port department of mounting groove (103) is through bolt fixedly connected with limit cap (9), the surface of limit cap (9) corresponds the position of drive worm (7) and all rotates and be connected with regulation runner (10), each it is equal fixedly connected with spacing prism (1001) to adjust the one end that runner (10) is close to drive worm (7), and spacing prism (1001) inlay in the inboard of first runner groove (8), each second runner groove (1002) have all been seted up to the surface of regulation runner (10).

4. A low latency laminated slider according to claim 3, wherein: each mounting seat (4) is fixedly connected to the inner side wall of the mounting groove (103) through bolts.

5. A low latency laminated slider as claimed in claim 1, wherein: and sealing plugs (13) are embedded at the ports of the first oil injection groove (11) and the second oil injection groove (12).