CN211520256U - Product design screens structure for storage device - Google Patents

Abstract

The utility model discloses a product design is screens structure for storage device, its structure includes screens frame, baffle, mounting hole, this screens device, through locating extrusion mechanism and bleeder mechanism under the screens frame, press the board through the product lower extreme touching extrusion and make the lower shift lever descend, two skew pole lower extremes outside squint, make the skew pole drive the extrusion pole and carry out horizontal migration, the extrusion pole drives the piston rod and extrudes in total pressure chamber inside, transmit atmospheric pressure to the inside of pressure chamber through the atmospheric pressure pipe, work through three bleeder chamber that length progressively decreases, the screens pole that three length progressively decreases is pushed out from three bleeder chamber insides, drive the foam-rubber cushion and carry out the laminating screens to the product, bigger product screens through three screens pole simultaneously, and smaller product screens through the screens pole of bottom, can carry out firm screens to the product of variation in size, the small-sized product can not fall off on the storage device, and the product safety is ensured.

Description

Product design screens structure for storage device

Technical Field

The utility model relates to a product design technical field, concretely relates to product design screens structure for storage device.

Background

The product refers to any thing which can be supplied to the market, used and consumed by people and can meet certain requirements of people, and comprises tangible goods, intangible services, organizations, concepts or the combination of the tangible goods, the product can be generally divided into five layers, namely core products, basic products, desired products, additional products, potential products, during the transfer of the products, the product can be clamped by a clamping structure on the storage device, however, the existing storage device uses the blocking structure, the blocking distance of the blocking structure to the product is relatively fixed, the clamping effect on products with different sizes is poor, some small products cannot be stored, in the transferring process, the small product is easy to fall off from the storage device due to external force shaking, so that the small product is damaged.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to overcome the defects in the prior art, the clamping structure for the product design storage device is provided, and the problems that the existing clamping structure for the storage device cannot perform good clamping on products with different sizes, some small-sized products cannot be stored, and the small-sized products fall off from the storage device easily to cause damage in the transferring process are solved.

(II) technical scheme

The utility model discloses a following technical scheme realizes: the utility model provides a product design is screens structure for storage device, including screens frame, baffle, mounting hole, connecting plate and extrusion mechanism, screens frame inside is equipped with the baffle, the mounting hole is established on the connecting plate, extrusion mechanism installs under screens frame, the connecting plate passes through electric welding and extrusion mechanism surface looks fixed, extrusion mechanism includes protective housing, pushes down board, spring, moves down the pole, limiting plate, skew pole, slide rail, sliding shaft, extrusion pole and bleeder mechanism, the protective housing upper end is fixed with screens frame mutually, it inlays inside the protective housing upper end to push down the board, it is laminated with the spring top to push down the board lower surface, it is fixed with the pole top that moves down through electric welding to push down the board lower surface, the spring is installed on moving down the pole, it is nested inside the limiting plate that the pole lower extreme activity moves down, the limiting plate fixed mounting is inside the protective housing, move down the pole lower extreme and the skew pole upper end is articulated mutually, the skew pole lower extreme is equipped with the slip axle, the slip axle adopts clearance fit to install on the slide rail, the extrusion stem head end is articulated mutually with the skew pole lower extreme, the extrusion stem is connected with bleeder mechanism swing joint, install inside the baffle on the bleeder mechanism top.

Further, the pressure dividing mechanism comprises a main air pressure chamber, a sealing gasket, a piston rod, an air pressure conduit, a pressure dividing chamber, a clamping rod and a sponge cushion, wherein the extrusion rod is installed inside the main air pressure chamber in a clearance fit mode, the sealing gasket is arranged at the joint of the main air pressure chamber and the extrusion rod, the piston rod is installed inside the main air pressure chamber and fixed with the extrusion rod, the air pressure conduit is installed at the tail end of the main air pressure chamber, the upper end of the air pressure conduit is communicated with the pressure dividing chamber, the clamping rod is installed inside the pressure dividing chamber in a clearance fit mode, and the head end of the clamping rod is bonded with the sponge cushion through glue.

Further, the lower pressing plate is of a cylindrical structure and the diameter of the lower pressing plate is 5 cm.

Furthermore, the offset rods are arranged in two and are bilaterally symmetrical.

Furthermore, the pressure dividing mechanisms are provided with two pressure dividing mechanisms which are respectively arranged at the left end and the right end of the extrusion mechanism.

Furthermore, the total number of the pressure-dividing chambers is six, three pressure-dividing chambers form a group and are symmetrical left and right, and the length of each pressure-dividing chamber is gradually decreased from bottom to top.

Further, the spongy cushion is of a cylindrical structure.

Further, the sealing gasket is a polytetrafluoroethylene plate.

Further, the offset rod is made of 45-grade steel.

(III) advantageous effects

Compared with the prior art, the utility model, following beneficial effect has:

in order to solve the problems that products with different sizes cannot be well clamped by a clamping structure on the existing storage device, some small products cannot be stored, and small products easily fall off from the storage device and are damaged in the transferring process, a squeezing mechanism and a pressure dividing mechanism are arranged at the right lower end of a clamping frame, a lower moving rod descends by touching and squeezing a lower pressing plate through the lower end of the product, the lower ends of two deviation rods deviate outwards, so that the deviation rods drive the squeezing rods to horizontally move, the squeezing rods drive piston rods to squeeze in a total air pressure chamber, air pressure is transmitted to the interior of the pressure dividing chamber through an air pressure conduit, the three pressure dividing chambers with gradually decreasing lengths work, three clamping rods with gradually decreasing lengths are ejected out of the interior of the three pressure dividing chambers to drive a sponge cushion to carry out joint clamping on the products, and larger products are simultaneously clamped through the three clamping rods, and less product then carries out the screens through the screens pole of lowermost end, can carry out firm screens effect to the product of variation in size, and small-size product can not take place to drop on storage device, ensures product safety.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

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

fig. 2 is a schematic sectional structure view of the extruding mechanism of the present invention;

fig. 3 is a schematic view of a partial enlarged structure at a position a of the extrusion mechanism of the present invention;

fig. 4 is a schematic view of a partial cross-sectional structure of the pressure-dividing mechanism of the present invention;

fig. 5 is a schematic view of a partial three-dimensional structure of the extruding mechanism of the present invention.

In the figure: the device comprises a clamping frame-1, a partition plate-2, a mounting hole-3, a connecting plate-4, a squeezing mechanism-5, a protective shell-51, a lower pressing plate-52, a spring-53, a lower moving rod-54, a limiting plate-55, a deviation rod-56, a slide rail-57, a sliding shaft-58, a squeezing rod-59, a pressure dividing mechanism-510, a total air pressure chamber-5101, a sealing gasket-5102, a piston rod-5103, an air pressure conduit-5104, a pressure dividing chamber-5105, a clamping rod-5106 and a sponge pad-5107.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, the present invention provides a product design storage device with a clamping structure: including screens frame 1, baffle 2, mounting hole 3, connecting plate 4 and extrusion mechanism 5, the inside baffle 2 that is equipped with of screens frame 1, mounting hole 3 is established on connecting plate 4, extrusion mechanism 5 is installed under screens frame 1, connecting plate 4 is fixed mutually with 5 surfaces of extrusion mechanism through electric welding, extrusion mechanism 5 includes protective housing 51, presses board 52, spring 53 down, moves down pole 54, limiting plate 55, skew pole 56, slide rail 57, sliding shaft 58, extrusion pole 59 and bleeder mechanism 510, protective housing 51 upper end is fixed mutually with screens frame 1, press board 52 to inlay inside protective housing 51 upper end down, press board 52 lower surface and spring 53 top to laminate mutually down, press board 52 lower surface down through electric welding with move down the pole 54 top fixed mutually, spring 53 installs on moving down pole 54, move down the pole 54 lower extreme activity nestification inside limiting plate 55, limiting plate 55 fixed mounting is inside protective housing 51, it is articulated mutually with skew 56 upper end to move down the pole 54 lower extreme, skew 56 lower extreme is equipped with slide shaft 58, slide shaft 58 adopts clearance fit to install on slide rail 57, the squeeze bar 59 head end is articulated mutually with skew 56 lower extreme, squeeze bar 59 and bleeder mechanism 510 swing joint, install inside baffle 2 on the bleeder mechanism 510 top.

The pressure dividing mechanism 510 comprises a total air pressure chamber 5101, a sealing gasket 5102, a piston rod 5103, an air pressure duct 5104, a pressure dividing chamber 5105, a clamping rod 5106 and a sponge pad 5107, wherein the extrusion rod 59 is installed inside the total air pressure chamber 5101 in a clearance fit manner, the sealing gasket 5102 is arranged at the joint of the total air pressure chamber 5101 and the extrusion rod 59, the piston rod 5103 is installed inside the total air pressure chamber 5101 and is fixed with the extrusion rod 59, the air pressure duct 5104 is installed at the tail end of the total air pressure chamber 5101, the upper end of the air pressure duct 5104 is communicated with the pressure dividing chamber 5105, the clamping rod 5106 is installed inside the pressure dividing chamber 5105 in a clearance fit manner, and the head end of the clamping rod 5106 is bonded with the sponge pad 5107 through glue.

Wherein, press down board 52 and be the cylinder structure, and the diameter is 5cm, do benefit to and play the effect that can be better carry out the extrusion to pressing down board 52 through the product.

Wherein, the skew pole 56 is equipped with two altogether, and be bilateral symmetry, does benefit to and plays the effect of carrying out the skew simultaneously through pushing down board 52 drive two skew poles 56.

Wherein, partial pressure mechanism 510 is equipped with two altogether, and sets up both ends about extrusion mechanism 5 respectively, does benefit to and plays the effect that drives two partial pressure mechanisms 510 and carry out work simultaneously through extrusion mechanism 5.

The six pressure dividing chambers 5105 are arranged in a group of three pressure dividing chambers 5105 which are symmetrical left and right, the length of each pressure dividing chamber 5105 is gradually decreased from bottom to top, and the three pressure dividing chambers 5105 with gradually decreased lengths are favorable for clamping products with different sizes.

The sponge mat 5107 is of a cylindrical structure, and is beneficial to better clamping the surface of a product by the sponge mat 5107.

Wherein, the sealing gasket 5102 is a polytetrafluoroethylene plate which has good plasticity.

Wherein, the offset rod 56 is 45 steel, which has high strength.

According to the table, the offset rod 56 is made of No. 45 steel, so that the strength, the wear resistance and the corrosion resistance of the offset rod are greatly enhanced, and the service life of the offset rod is prolonged.

The sealing gasket 5102 is a sealing spare part used for machines, equipment and pipelines as long as the parts have fluid, and is made of metal or nonmetal plate-shaped materials through cutting, stamping or cutting and the like, and is used for sealing and connecting pipelines, and parts of machine equipment are in sealing and connecting with the parts, and the sealing gasket can be divided into a metal sealing gasket and a nonmetal sealing gasket according to the materials.

The working principle is as follows: before use, the clamping device is placed stably through the bottom surface of the protective shell 51; when the device is used, in the first step, products are put into the clamping frame 1, the partition plates 2 prevent the products from colliding with each other, the lower ends of the products touch and extrude the lower pressing plate 52 to enable the lower moving rod 54 to descend, the lower end of the lower moving rod 54 extrudes and deflect the deflecting rods 56, the lower ends of the two deflecting rods 56 deflect outwards, the lower ends of the two deflecting rods 56 slide in the sliding rail 57 through the sliding shaft 58, the deflecting rods 56 drive the extruding rods 59 to move horizontally, the extruding rods 59 drive the piston rod 5103 to extrude in the total barometric chamber 5101, air pressure is transmitted to the interior of the pressure dividing chamber 5105 through the barometric duct 5104, the three pressure dividing chambers 5 with gradually decreasing lengths work, the three clamping rods 5106 with gradually decreasing lengths are ejected from the interiors of the three pressure dividing chambers 5105 to drive the sponge pads 5107 to attach and clamp the products, larger products are clamped through the three clamping rods 5106 at the same time, moderate products are clamped simultaneously by the two clamping rods 5106 at the lower part, and smaller products are clamped by the clamping rod 5106 at the lowest end, so that products with different sizes can be stably clamped; after the product is clamped, the clamping device is integrally installed in the storage device through the installation hole 3 in the connecting plate 4 to be transferred, and the work is finished.

The basic principle and the main characteristics of the utility model and the advantages of the utility model have been shown and described above, and the utility model discloses the standard part that uses all can purchase from the market, and dysmorphism piece all can be customized according to the record of the description with the drawing, and the concrete connection mode of each part all adopts conventional means such as ripe bolt rivet among the prior art, welding, and machinery, part and equipment all adopt prior art, conventional model, and conventional connection mode in the prior art is adopted in addition to circuit connection, and the details are not repeated here.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned. Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. A clamping structure for a product design storage device comprises a clamping frame (1), a partition plate (2), mounting holes (3) and a connecting plate (4), wherein the partition plate (2) is arranged inside the clamping frame (1), and the mounting holes (3) are formed in the connecting plate (4);

the method is characterized in that: still include extrusion mechanism (5), extrusion mechanism (5) are installed under screens frame (1), connecting plate (4) are fixed mutually through electric welding and extrusion mechanism (5) surface, extrusion mechanism (5) are including protective housing (51), press board (52), spring (53) down, move down pole (54), limiting plate (55), skew pole (56), slide rail (57), slip shaft (58), extrusion pole (59) and bleeder mechanism (510), protective housing (51) upper end is fixed mutually with screens frame (1), press board (52) to inlay inside protective housing (51) upper end down, press board (52) lower surface and spring (53) top to laminate mutually down, press board (52) lower surface down and move down pole (54) top mutually fixed, spring (53) are installed on moving down pole (54), move down pole (54) lower extreme activity nestification is inside limiting plate (55), limiting plate (55) fixed mounting is inside protective housing (51), it is articulated mutually with skew pole (56) upper end to move down pole (54) lower extreme, skew pole (56) lower extreme is equipped with sliding shaft (58), sliding shaft (58) adopt clearance fit to install on slide rail (57), extrusion stem (59) head end is articulated mutually with skew pole (56) lower extreme, extrusion stem (59) and partial pressure mechanism (510) swing joint, install inside baffle (2) partial pressure mechanism (510) top.

2. The product design storage device clamping structure as claimed in claim 1, wherein: the pressure dividing mechanism (510) comprises a total air pressure chamber (5101), a sealing gasket (5102), a piston rod (5103), an air pressure conduit (5104), a pressure dividing chamber (5105), a clamping rod (5106) and a spongy cushion (5107), wherein the extrusion rod (59) is installed inside the total air pressure chamber (5101) in a clearance fit mode, the sealing gasket (5102) is arranged at the joint of the total air pressure chamber (5101) and the extrusion rod (59), the piston rod (5103) is installed inside the total air pressure chamber (5101) and fixed with the extrusion rod (59), the air pressure conduit (5104) is installed at the tail end of the total air pressure chamber (5101), the upper end of the air pressure conduit (5104) is communicated with the pressure dividing chamber (5105), the clamping rod (5106) is installed inside the pressure dividing chamber (5105) in a clearance fit mode, and the clamping rod (5106) is bonded with the spongy cushion (5107) through glue.

3. The product design storage device clamping structure as claimed in claim 1, wherein: the lower pressing plate (52) is of a cylindrical structure and has the diameter of 5 cm.

4. The product design storage device clamping structure as claimed in claim 1, wherein: the number of the offset rods (56) is two, and the offset rods are symmetrical left and right.

5. The product design storage device clamping structure as claimed in claim 1, wherein: the two pressure dividing mechanisms (510) are arranged and are respectively arranged at the left end and the right end of the extrusion mechanism (5).

6. The product design storage device clamping structure as claimed in claim 2, wherein: six pressure-dividing chambers (5105) are arranged in total, three pressure-dividing chambers form a group and are symmetrical left and right, and the length of each pressure-dividing chamber (5105) is gradually reduced from bottom to top.

7. The product design storage device clamping structure as claimed in claim 2, wherein: the sponge cushion (5107) is in a cylindrical structure.

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