CN220663506U - Concealed operation labor-saving spinning fine adjustment mechanism - Google Patents

Abstract

The utility model discloses a concealed operation labor-saving spinning fine adjustment mechanism, and relates to the field of article packaging and fixing in a packaging box. The spinning machine comprises a spinning main body, wherein the spinning main body is in an inverted U shape, the top of the spinning main body is a pressing part, and the left side and the right side of the spinning main body are side fixing parts; the side fixing part comprises four fixing ends, each fixing end is provided with a pin hole, and the pin holes of the two fixing ends on the left side and the right side are opposite. The top surface of the pressing part is rectangular, two handle grooves are respectively formed in the front side end surface and the rear side end surface of the pressing part, and the two handle grooves formed in the front side end surface and the rear side end surface are respectively positioned at the left part and the right part; the bottom surface of the pressing part is in a central bulge shape, a rectangular groove is formed in the central bulge of the bottom surface of the pressing part, and a fine adjustment structure is arranged on the central bulge of the bottom surface of the pressing part and comprises a rubber pressing block, a supporting plate, a connecting screw, a rotary ejector rod, a fixing seat, a side support and a fixing plate. According to the utility model, friction force is transferred between metals, so that the friction force is greatly reduced, and the rubber press block and the support plate move downwards in parallel, so that a labor-saving function is finally achieved.

Description

Concealed operation labor-saving spinning fine adjustment mechanism

Technical Field

The utility model relates to the field of article packaging and fixing in a packaging box, in particular to a concealed labor-saving spinning fine adjustment mechanism.

Background

The special purpose packaging box is used for transporting the contents from delivery to users and between users, and in order to avoid erosion and mechanical damage in the process of blending transportation and storage, the special purpose packaging box needs to passively perform operations such as shoveling, stacking, lifting, coupling and the like.

In the process of placing the content in the special-purpose packaging box, because the content is placed in a hanging way, parts such as damping rubber strips are needed between the content and the trailer, and therefore after the content is placed on the trailer, the compression device on the trailer needs to compress the content along with deformation of the damping rubber strips, so that looseness is prevented. The traditional internal material compressing mode adopts a top screw to compress and fix, and as the rubber block is also needed between the compressing mechanism and the internal material, the friction force between the metal and the rubber block is larger, the use is laborious, the operability is poor, and the appearance is also not attractive. There is therefore a need for an improved compression device that is easy to operate while improving aesthetics.

Disclosure of Invention

The utility model provides a labor-saving spinning fine adjustment mechanism with hidden operation, which aims to solve the problems of laborious use and poor operability caused by large friction force between metal and rubber blocks of a compressing device of contents in the existing special-purpose packaging box.

The utility model is realized by the following technical scheme: the labor-saving spinning fine adjustment mechanism comprises a spinning main body, wherein the spinning main body is in an inverted U shape, the top of the spinning main body is a pressing part, and the left side and the right side of the spinning main body are side fixing parts; the side fixing part comprises four fixing ends, each fixing end is provided with a pin hole, and the pin holes of the two fixing ends on the left side and the right side are opposite. The top surface of the pressing part is rectangular, two handle grooves are respectively formed in the front side end surface and the rear side end surface of the pressing part, and the two handle grooves formed in the front side end surface and the rear side end surface are respectively positioned at the left part and the right part; the bottom surface of the pressing part is in a central bulge shape, a rectangular groove provided with a fine adjustment structure is formed in the central bulge position of the bottom surface of the pressing part, the fine adjustment structure comprises a rubber press block, a support plate, a connecting screw, a rotary ejector rod, a fixing seat, a side support and a fixing plate, and the side support is formed by two rectangular side plates and is parallel to and fixed on the left side wall and the right side wall of the rectangular groove of the pressing part; the fixing plate is fixedly connected between the upper parts of the side supports on two sides, the fixing seat is formed by integrating a rectangular plate and a cylindrical table, a threaded hole for screwing the rotary ejector rod is formed in the middle of the fixing seat, a hole matched with the cylindrical table of the fixing seat in size is formed in the fixing plate, the cylindrical table of the fixing seat upwards penetrates through the hole formed in the fixing plate and abuts against the bottom of the rectangular groove on the bottom surface of the pressing part, and four corners of the rectangular plate of the fixing seat are mounted on the fixing plate through screws; the support plate is clamped between the side supports at two sides, the rotary ejector rod is formed by integrating a round top and a smooth rotating rod, the round top of the rotary ejector rod is propped against the top surface of the support plate, the support plate is connected with the rotary ejector rod through a connecting screw, the connecting screw penetrates through the support plate to be in threaded connection with the rotary ejector rod, a hexagonal countersunk hole is formed in the end part of the smooth rotating rod of the rotary ejector rod, and the smooth rotating rod of the rotary ejector rod penetrates through a through hole of the fixing seat and stretches out of the top surface of the compression part; the rubber pressing block is positioned at the lower part of the supporting plate and clamped between the side supports at the two sides, and extends out of the rectangular notch of the pressing part; the bottom surface of the rubber press block is also provided with a yielding groove.

The utility model relates to a concealed-operation labor-saving spinning fine adjustment mechanism, which comprises a spinning main body, wherein the spinning main body is in an inverted U shape, the top of the spinning main body is provided with a compacting part for compacting, and the left side and the right side of the spinning main body are provided with side fixing parts for fixing the left side and the right side of the spinning main body. The side fixing part comprises four fixing ends, each fixing end is provided with a pin hole, and the pin holes of the two fixing ends on the left side and the right side are opposite to each other, so that a pin can be inserted into the pin holes to be fixed, and the spinning main body is fixed in position. The top surface of the pressing part is rectangular, two handle grooves are respectively formed in the front side end surface and the rear side end surface of the pressing part, and the two handle grooves formed in the front side end surface and the rear side end surface are respectively positioned at the left part and the right part; the total of four handle grooves can lift the whole spinning main body when the spinning main body needs to be disassembled. The compressing part is the core of whole device, its bottom surface is central protruding form, the protruding department in the center of compressing part bottom surface is opened there is the rectangular channel, be provided with the fine setting structure in the rectangular channel, the fine setting structure includes rubber briquetting, the backup pad, connecting screw, rotatory ejector pin, the fixing base, side support and fixed plate, the side support is two rectangular curb plates, and be parallel to be fixed in compressing part rectangular channel's left and right sides wall on, fixed plate fixed connection is between the side support upper portion of both sides, the side support provides the supporting role for the fixed plate. The fixing seat is formed by integrating a rectangular plate and a cylindrical table, a threaded hole for screwing the rotary ejector rod is formed in the middle of the fixing seat, and the rotary ejector rod can move up and down in the fixing seat in the screwing process; the fixed plate is provided with a hole matched with the cylindrical table of the fixed seat in size, the cylindrical table of the fixed seat upwards penetrates through the fixed plate to open a hole and is propped against the bottom of the rectangular groove on the bottom surface of the pressing part, four corners of the rectangular plate of the fixed seat are mounted on the fixed plate through screws, and the strength of the whole structure can be guaranteed under the action of force through screw mounting. The supporting plate is clamped between the side supports at two sides, but can move downwards under the action of the rotary ejector rod; the rotary ejector rod is formed by integrating a round top and a smooth rotating rod, the round top of the rotary ejector rod is propped against the top surface of the supporting plate, the supporting plate is connected with the rotary ejector rod through a connecting screw, the connecting screw penetrates through the supporting plate to be in threaded connection with the rotary ejector rod, the connecting screw is not in threaded fixation with the supporting plate, relative rotation between the connecting screw and the supporting plate is indicated, the connecting screw is in threaded connection with the rotary ejector rod, and when the rotary ejector rod rotates, the connecting screw also rotates along with the rotary ejector rod. The end part of the smooth rotating rod of the rotating ejector rod is provided with a hexagonal countersunk hole, the smooth rotating rod of the rotating ejector rod penetrates through the through hole of the fixing seat and extends out of the top surface of the pressing part, and therefore when the hexagonal wrench is screwed on the hexagonal countersunk head Kong Naxuan, the rotating ejector rod pushes the supporting plate to move downwards. The rubber press block is positioned at the lower part of the supporting plate and clamped between the side supports at the two sides, and extends out of the rectangular notch of the pressing part, so that the rubber press block also moves downwards when the supporting plate moves downwards, is parallel displacement and has no rotary friction force. The bottom surface of the rubber pressing block is also provided with a yielding groove for yielding the protrusion at the top of the article to be packaged.

Preferably, the screw adopts countersunk head screw, has guaranteed structural strength.

Preferably, the supporting plate is a metal plate, and the rotary ejector rod is formed by integrating a metal rotating rod and a metal circular disc, so that friction force between the supporting plate and the rotary ejector rod is greatly reduced even if the rotary ejector rod rotates, and labor can be saved.

Compared with the prior art, the utility model has the following beneficial effects: the concealed operation labor-saving spinning fine adjustment mechanism provided by the utility model has the advantages that the appearance is clean and tidy, the rotary ejector rod is concealed in the spinning main body, the operation is simple, quick and convenient, the handle groove is designed, the disassembly is convenient, and the friction force is transferred to a metal and metal structure in the screwing process because the supporting plate and the rotary ejector rod are both made of metal, so that the friction force can be greatly reduced, the operation difficulty is effectively reduced, and only the rubber pressing block and the supporting plate are required to move downwards in parallel, thereby finally achieving the labor-saving function.

Drawings

Fig. 1 is an overall construction diagram of the present utility model.

Fig. 2 is a cross-sectional view of the present utility model.

Fig. 3 is a schematic diagram showing the connection between the fixing plate and the fixing base.

The figures are labeled as follows: the spinning machine comprises a 1-spinning main body, a 2-pressing part, a 3-side fixing part, a 31-fixing end, 301-pin holes, 4-handle grooves, 5-fine adjustment structures, 501-rubber pressing blocks, 502-supporting plates, 503-connecting screws, 504-rotating ejector rods, 505-fixing seats, 506-side supports, 507-fixing plates, 508-screws and 509-yielding grooves.

Detailed Description

Specific embodiments of the present utility model will be described below with reference to the accompanying drawings.

A labor-saving spinning fine adjustment mechanism with hidden operation is shown in fig. 1-3: the spinning machine comprises a spinning main body 1, wherein the spinning main body 1 is in an inverted U shape, the top of the spinning main body 1 is provided with a pressing part 2, and the left side and the right side of the spinning main body are provided with side fixing parts 3; the side fixing part 3 comprises four fixing ends 31, each fixing end 31 is provided with a pin hole 301, and the pin holes 301 of the two fixing ends 31 on the left side and the right side are opposite. The top surface of the pressing part 2 is rectangular, two handle grooves 4 are respectively formed in the front side end surface and the rear side end surface of the pressing part 2, and the two handle grooves 4 formed in the front side end surface and the rear side end surface are respectively positioned at the left part and the right part; the bottom surface of the pressing part 2 is in a central bulge shape, a rectangular groove provided with a fine adjustment structure 5 is formed in the central bulge position of the bottom surface of the pressing part 2, the fine adjustment structure 5 comprises a rubber press block 501, a support plate 502, a connecting screw 503, a rotary ejector rod 504, a fixed seat 505, a side support 506 and a fixed plate 507, and the side support 506 is two rectangular side plates and is parallel and fixed on the left side wall and the right side wall of the rectangular groove of the pressing part 2; the fixing plate 507 is fixedly connected between the upper parts of the side supports 506 on two sides, the fixing seat 505 is formed by integrating a rectangular plate and a cylindrical table, a through hole for the rotary ejector rod 504 to pass through is formed in the middle of the fixing seat 505, a hole matched with the cylindrical table of the fixing seat 505 in size is formed in the fixing plate 507, the cylindrical table of the fixing seat 505 upwards passes through the hole formed in the fixing plate 507 and abuts against the bottom of the rectangular groove on the bottom surface of the pressing part 2, and four corners of the rectangular plate of the fixing seat 505 are mounted on the fixing plate 507 through screws 508; the supporting plate 502 is clamped between the side supports 506 on two sides, the rotary ejector rod 504 is formed by integrating a round top and a smooth rotating rod, the round top of the rotary ejector rod 504 is propped against the top surface of the supporting plate 502, the supporting plate 502 is connected with the rotary ejector rod 504 through a connecting screw 503, the connecting screw 503 penetrates through the supporting plate 502 to be in threaded connection with the rotary ejector rod 504, a hexagonal countersunk hole is formed in the end part of the smooth rotating rod of the rotary ejector rod 504, and the smooth rotating rod of the rotary ejector rod 504 penetrates through a through hole of the fixing seat 505 and stretches out of the top surface of the pressing part 2; the rubber press block 501 is positioned at the lower part of the supporting plate 502 and clamped between the side supports 506 at two sides, and the rubber press block 501 extends out of the rectangular notch of the pressing part 2; the bottom surface of the rubber press block 501 is also provided with a relief groove 509.

The following preferred scheme is adopted in the embodiment: the screw 508 is a countersunk screw; the supporting plate 502 is a metal plate, and the rotary ejector rod 504 is formed by integrating a metal rotating rod and a metal circular disc.

The specific operation of this embodiment is: when the device is used for packaging the contents, the left and right side fixing parts 3 are fixed at corresponding positions, pins are inserted into the fixing parts, the whole device is fixed in position, then a hexagonal wrench is inserted into a hexagonal countersink at the end part of a smooth rotating rod of the rotary ejector rod 504, the hexagonal wrench is rotated, the rotary ejector rod 504 moves up and down along the axis of a threaded hole formed in the fixing seat 505, meanwhile, the connecting screw 508 also rotates along with the threaded hole, when the rotary ejector rod 504 moves down, the supporting plate 502 also moves down, the rubber pressing block 501 also moves down, parallel movement is realized, the contents are pressed, and the friction force between the rotary ejector rod 504 and the supporting plate 502 is small in the process of moving up and down, so that the device is labor-saving. When the device needs to be opened, the hexagonal wrench is adopted to reversely screw the rotary ejector rod 504, and the handle groove 4 is utilized to lift the whole device.

The scope of the present utility model is not limited to the above embodiments, and various modifications and alterations of the present utility model will become apparent to those skilled in the art, and any modifications, improvements and equivalents within the spirit and principle of the present utility model are intended to be included in the scope of the present utility model.

Claims (3)

1. A labor-saving spinning fine adjustment mechanism with hidden operation is characterized in that: the spinning machine comprises a spinning main body (1), wherein the spinning main body (1) is in an inverted U shape, the top of the spinning main body (1) is provided with a pressing part (2), and the left side and the right side of the spinning main body are provided with side fixing parts (3); the side fixing part (3) comprises four fixing ends (31), each fixing end (31) is provided with a pin hole (301), and the pin holes (301) of the two fixing ends (31) on the left side and the right side are opposite;

the top surface of the pressing part (2) is rectangular, two handle grooves (4) are respectively formed in the front side end surface and the rear side end surface of the pressing part (2), and the two handle grooves (4) formed in the front side end surface and the rear side end surface are respectively positioned at the left part and the right part; the bottom surface of the pressing part (2) is in a central bulge shape, a rectangular groove provided with a fine adjustment structure (5) is formed in the central bulge position of the bottom surface of the pressing part (2), the fine adjustment structure (5) comprises a rubber press block (501), a support plate (502), a connecting screw (503), a rotary ejector rod (504), a fixing seat (505), a side support (506) and a fixing plate (507), and the side support (506) is two rectangular side plates and is parallel and fixed on the left side wall and the right side wall of the rectangular groove of the pressing part (2); the fixing plate (507) is fixedly connected between the upper parts of the side supports (506) on two sides, the fixing seat (505) is formed by integrating a rectangular plate and a cylindrical table, a threaded hole for screwing the rotary ejector rod (504) is formed in the middle of the fixing seat (505), a hole matched with the cylindrical table of the fixing seat (505) in size is formed in the fixing plate (507), the cylindrical table of the fixing seat (505) upwards penetrates through the hole formed in the fixing plate (507) and abuts against the bottom of the rectangular groove on the bottom surface of the pressing part (2), and four corners of the rectangular plate of the fixing seat (505) are mounted on the fixing plate (507) through screws (508); the support plates (502) are clamped between side supports (506) on two sides, the rotary ejector rods (504) are formed by integrating round tops and smooth rotating rods, the round tops of the rotary ejector rods (504) are propped against the top surfaces of the support plates (502), the support plates (502) are connected with the rotary ejector rods (504) through connecting screws (503), the connecting screws (503) penetrate through the support plates (502) to be in threaded connection with the rotary ejector rods (504), hexagonal countersunk holes are formed in the end parts of the smooth rotating rods of the rotary ejector rods (504), and the smooth rotating rods of the rotary ejector rods (504) penetrate through holes of the fixing seats (505) and extend out of the top surfaces of the pressing parts (2); the rubber pressing block (501) is positioned at the lower part of the supporting plate (502) and clamped between the side supports (506) at two sides, and the rubber pressing block (501) extends out of the rectangular notch of the pressing part (2); and a yielding groove (509) is also formed in the bottom surface of the rubber pressing block (501).

2. The concealed operated labor-saving spinning fine adjustment mechanism according to claim 1, wherein: the screw (508) is a countersunk screw.

3. The concealed operated labor-saving spinning fine adjustment mechanism according to claim 1, wherein: the supporting plate (502) is a metal plate, and the rotary ejector rod (504) is formed by integrating a metal rotating rod and a metal circular disc.