CN112550410B - Novel multilayer loading device with high stability for ceramic parts - Google Patents

Abstract

The invention relates to loading equipment, in particular to novel multilayer loading equipment for ceramic parts, which has high stability. The invention provides novel multilayer loading equipment for ceramic parts, which has the advantages of large loading capacity of the ceramic parts, stable transportation and high stability and can protect the ceramic parts from being broken. A novel multilayer loading device for ceramic parts with high stability comprises: the cart is provided with a containing mechanism; the locking mechanism is arranged on the cart. The first telescopic assembly resets to drive the first wedge block and the sliding block to move outwards and backwards, and the first wedge block clamps and fixes the placing plate to achieve the clamping and fixing effect of the placing plate; the second telescopic assembly resets to drive the second clamping block and the first fixing block to move rightwards, the second clamping block is in contact with the first clamping block and the ceramic part, and the first clamping block and the second clamping block clamp the ceramic part, so that the effect of clamping the ceramic part is achieved.

Description

Novel multilayer loading device with high stability for ceramic parts

Technical Field

The invention relates to loading equipment, in particular to novel multilayer loading equipment for ceramic parts, which has high stability.

Background

After the ceramic part is manufactured, the ceramic part needs to be transported to a warehouse for storage, the ceramic part is broken due to the fact that the ceramic part is fragile and is subjected to large vibration, the loading capacity of a traditional ceramic part loading vehicle is small, and the ceramic part is prone to toppling and breaking in the transportation process.

Patent application CN203642700U, the publication date is 20140611, disclose a pottery load wagon and adopt this pottery load wagon's energy-conserving tunnel cave, including the plummer, the roller train, including a motor, a support, horizontal pole and constant head tank etc, through placing ceramic part on the plummer, the constant head tank is fixed ceramic part, starter motor, the motor drives the roller train and rotates, the roller train drives this equipment and removes, thereby transport ceramic part, however, this equipment presss from both sides tight function relatively poor, can't press from both sides tight ceramic part, lead to ceramic part broken easily.

Therefore, the novel multilayer loading equipment for the ceramic parts is designed, has the advantages of large ceramic part loading capacity, stable transportation and high stability, and can protect the ceramic parts from being broken easily.

Disclosure of Invention

In order to overcome the defects of less ceramic piece loading capacity, bumpiness in transportation and easiness in breaking of ceramic pieces of the traditional loading vehicle, the technical problems to be solved are as follows: the novel multilayer loading equipment for the ceramic parts is high in loading capacity, stable in transportation and capable of protecting the ceramic parts from being broken easily and high in stability.

The technical implementation scheme of the invention is as follows: a novel multi-layer loading device for ceramic parts with high stability comprises:

the cart is provided with a containing mechanism;

the locking mechanism is arranged on the cart.

Further illustratively, the holding mechanism includes:

the first fixing frames are arranged on two sides of the cart;

eight telescopic rods are arranged between the trolley and the first fixing frame;

the placing plate is connected between the top ends of the four telescopic rods on the same side;

first spring all around having first spring on eight telescopic links, four first spring both ends of upside respectively with first mount with place the board and be connected, four first spring both ends of downside respectively with place board and shallow be connected.

Further illustratively, the locking mechanism includes:

the two sides of the two placing plates are provided with special-shaped grooves;

four sliding blocks are arranged on two sides of the trolley in a sliding mode;

the eight sliding blocks are provided with first wedge blocks;

and a first telescopic assembly is connected between the two first wedge blocks at the same side.

Further, the clamping mechanism is further included, and the clamping mechanism includes:

the right sides of the tops of the two placing plates are respectively provided with a first fixing seat;

the two first fixing seats are respectively provided with three first clamping blocks;

the top parts of the two placing plates are respectively provided with three first fixing plates;

the six first fixing plates are provided with a first telescopic assembly;

the six second telescopic assemblies are provided with the first fixed blocks;

and the tops of the six first fixing blocks are provided with second clamping blocks, and the second clamping blocks are matched with the first clamping blocks.

Further explain, still including liftout mechanism, liftout mechanism includes:

six third telescopic assemblies are arranged in the middle of the tops of the two placing plates;

the top ends of the two third telescopic assemblies on the same side are connected with the suckers;

the bottoms of the six suckers are provided with second fixed frames;

and the six second fixing frames are provided with second wedge blocks which are matched with the first fixing blocks.

Further illustrated, the illumination device further comprises an illumination mechanism, wherein the illumination mechanism comprises:

the first fixing seat on the upper side is provided with a first fixing block;

the bottom of the second fixed block is provided with a point contact switch;

the point contact switch is wound with a second spring, and two ends of the second spring are respectively connected with the second fixed block and the point contact switch;

the second fixing frame on the upper side is provided with a second fixing block, and the second fixing block is matched with the point contact switch;

the light all is equipped with four light on two first fixing bases.

Further explain, still including dustproof mechanism, dustproof mechanism includes:

the two sides of the top of the placing plate on the upper side are provided with second fixing plates;

the upper parts of the two second fixing plates are rotatably connected with the rotating shaft;

the rotating shaft is provided with a dust guard;

the top of the placing plate on the upper side is provided with a supporting seat;

the two parts of the placing plate on the upper side are both provided with second fixed seats;

the piece is inhaled to magnetism, and the board top of placing of upside is equipped with magnetism and inhales the piece, and the piece is inhaled to magnetism and dust guard cooperation.

The invention has the following advantages: 1. the first telescopic assembly resets to drive the first wedge-shaped block and the sliding block to move outwards and backwards, and the first wedge-shaped block clamps and fixes the placing plate to realize the clamping and fixing effect of the placing plate;

2. the second telescopic assembly resets to drive the second clamping block and the first fixed block to move rightwards, the second clamping block is in contact with the first clamping block and the ceramic piece, and the first clamping block and the second clamping block clamp the ceramic piece, so that the effect of clamping the ceramic piece is realized;

3. according to the invention, the third fixing block is matched with the point contact switch, the second spring is compressed, the point contact switch turns on the illuminating lamp, the illuminating lamp emits light, the placing plate and the sucker are illuminated, and the illuminating effect of the illuminating lamp is realized;

4. according to the invention, the dust guard plate drives the rotating shaft to rotate reversely, so that the dust guard plate is contacted with the magnetic attraction block, the magnetic force of the magnetic attraction block adsorbs the dust guard plate, dust falls on the dust guard plate, the ceramic part is protected, the erosion of the dust is reduced, and the effect of blocking the dust by the dust guard plate is realized.

Drawings

Fig. 1 is a schematic perspective view of a first perspective structure according to the present invention.

Fig. 2 is a perspective view of a second perspective structure according to the present invention.

Fig. 3 is a schematic perspective view of the containing mechanism of the present invention.

Fig. 4 is a schematic perspective view of the locking mechanism of the present invention.

Fig. 5 is a perspective view of the clamping mechanism of the present invention.

Fig. 6 is a schematic perspective view of the material ejecting mechanism of the present invention.

Fig. 7 is a perspective view of the illumination mechanism of the present invention.

Fig. 8 is a schematic perspective view of the dust-proof mechanism of the present invention.

Description of reference numerals: 1: cart, 2: hold mechanism, 21: first mount, 22: telescopic link, 23: placing plate, 24: first spring, 3: locking mechanism, 31: special-shaped groove, 32: slider, 33: first wedge block, 34: first telescopic assembly, 4: clamping mechanism, 41: first fixing base, 42: first block, 43: first fixing plate, 44: second telescopic assembly, 45: first fixing block, 46: second clamping block, 5: liftout mechanism, 51: third telescopic assembly, 52: suction cup, 53: second mount, 54: second wedge block, 6: illumination mechanism, 61: second fixing block, 62: point contact switch, 63: third fixed block, 64: second spring, 65: light, 7: dust-proof mechanism, 71: second fixing plate, 72: rotating shaft, 73: dust-proof plate, 74: supporting seat, 75: second fixing seat, 76: and a magnetic attraction block.

Detailed Description

The present invention now will be described more fully hereinafter with reference to the accompanying drawings, in which presently preferred embodiments of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided for completeness and fully convey the scope of the invention to the skilled person.

Example 1

A novel multilayer loading device with high stability for ceramic parts is shown in figures 1 and 2 and comprises a cart 1, a containing mechanism 2 and a locking mechanism 3, wherein the containing mechanism 2 is arranged on the cart 1, and the locking mechanism 3 is arranged on the cart 1.

When people want to stably transport ceramic parts, can use this kind of novel multilayer loading equipment for ceramic parts with high stability, at first, the user places a plurality of ceramic parts on holding mechanism 2, receives the influence of ceramic part weight for hold mechanism 2 downstream, hold mechanism 2 and locking mechanism 3 contact, locking mechanism 3 tightens up to the inboard, carries out the chucking to holding mechanism 2, and after the user took out ceramic parts, locking mechanism 3 reset, thereby the drive held mechanism 2 upward movement.

Example 2

On the basis of embodiment 1, as shown in fig. 3 and 4, the containing mechanism 2 includes a first fixing frame 21, telescopic rods 22, a placing plate 23 and first springs 24, the first fixing frame 21 is disposed on each of the front and rear sides of the cart 1, eight telescopic rods 22 are disposed between each of the front and rear sides of the cart 1 and the first fixing frame 21, the placing plate 23 is connected between the top ends of the four telescopic rods 22 on the same side, the eight telescopic rods 22 are wound with the first springs 24, two ends of the four first springs 24 on the upper side are respectively connected with the first fixing frame 21 and the placing plate 23, and two ends of the four first springs 24 on the lower side are respectively connected with the placing plate 23 and the cart 1.

The user places a plurality of ceramic members on placing board 23, receive the influence of ceramic member weight, make and place board 23 downstream, telescopic link 22 shortens downwards, first spring 24 is compressed, in-process placing board 23 whereabouts, telescopic link 22 and first spring 24 play the effect of buffering, realize ceramic member whereabouts buffering effect, the user takes out the back with ceramic member, first spring 24 resets, telescopic link 22 upwards extends, thereby board 23 upward movement is placed in the drive.

Locking mechanism 3 is including dysmorphism groove 31, slider 32, first wedge 33 and first flexible subassembly 34, and two places board 23 front and back both sides and all open special-shaped groove 31, and both sides are all slided around shallow 1 and are equipped with four sliders 32, all are equipped with first wedge 33 on eight sliders 32, are connected with first flexible subassembly 34 between two first wedges 33 of homonymy.

When placing board 23 downstream, place board 23 and the cooperation of first wedge 33, thereby drive the inboard motion of first wedge 33, and then drive slider 32 inboard motion, first flexible subassembly 34 is compressed, when placing board 23 downstream to certain extent, first flexible subassembly 34 resets, thereby drive first wedge 33 and slider 32 outside dorsad motion, first wedge 33 carries out the chucking to placing board 23 and fixes, realize placing board 23 chucking fixed effect, when placing board 23 upward movement, place board 23 and keep away from first wedge 33, first wedge 33 continues outside dorsad motion.

Example 3

On the basis of embodiment 2, as shown in fig. 5 to 8, the clamping device 4 further includes a clamping mechanism 4, the clamping mechanism 4 includes a first fixing seat 41, a first clamping block 42, a first fixing plate 43, a second telescopic assembly 44, a first fixing block 45 and a second clamping block 46, the right sides of the tops of two placing plates 23 are respectively provided with the first fixing seat 41, the left sides of two first fixing seats 41 are respectively provided with three first clamping blocks 42, the left sides of the tops of two placing plates 23 are respectively provided with three first fixing plates 43, six first fixing plates 43 are respectively provided with the second telescopic assembly 44, six second telescopic assemblies 44 are respectively provided with the first fixing block 45, the right sides of the tops of six first fixing blocks 45 are respectively provided with the second clamping block 46, and the second clamping blocks 46 are matched with the first clamping blocks 42.

The user pulls second clamp splice 46 left, first clamp splice 42 is kept away from to second clamp splice 46, second clamp splice 46 drives first fixed block 45 and moves left, the flexible subassembly 44 of second is compressed, the user places the ceramic part again between first clamp splice 42 and second clamp splice 46, loosen second clamp splice 46, the flexible subassembly 44 of second resets, thereby drive second clamp splice 46 and first fixed block 45 and move right, second clamp splice 46 and first clamp splice 42 and the contact of ceramic part, first clamp splice 42 presss from both sides tightly the ceramic part with second clamp splice 46, realize pressing from both sides tight ceramic part effect.

Still including liftout mechanism 5, liftout mechanism 5 is including the flexible subassembly 51 of third, sucking disc 52, second mount 53 and second wedge 54, two place 23 middle flexible subassemblies 51 of six third that all are equipped with in the middle of the top of board, two flexible subassemblies 51 tops of third of homonymy are connected with sucking disc 52, six sucking discs 52 bottoms all are equipped with second mount 53, six second mounts 53 left sides all are equipped with second wedge 54, second wedge 54 and the cooperation of first fixed block 45.

The user places the ceramic part on sucking disc 52, when first fixed block 45 moves to the right, first fixed block 45 cooperates with second wedge 54, thereby drive second wedge 54 downstream, and then drive second mount 53 downstream, second mount 53 drives sucking disc 52 downstream, third flexible subassembly 51 is compressed, sucking disc 52 drives ceramic part downstream, when first fixed block 45 moves to the left, second wedge 54 is kept away from to first fixed block 45, third flexible subassembly 51 resets, thereby drive sucking disc 52, second mount 53 and second wedge 54 upstream, sucking disc 52 drives ceramic part upward movement, upwards hold up the ceramic part, the person of facilitating the use takes out, realize that the ceramic part upwards holds up the effect.

Still including lighting mechanism 6, lighting mechanism 6 is including second fixed block 61, point touch switch 62, third fixed block 63, second spring 64 and light 65, the first fixing base 41 back wall of upside is equipped with second fixed block 61, second fixed block 61 left side bottom is equipped with point touch switch 62, around there being second spring 64 on the point touch switch 62, second spring 64 both ends are connected with second fixed block 61 and point touch switch 62 respectively, the second mount 53 rear side at upside rear portion is equipped with third fixed block 63, third fixed block 63 and the cooperation of point touch switch 62, two first fixing base 41 left sides all are equipped with four light 65.

In the dim environment of light, the user can't recognize the position of sucking disc 52, during the upward movement of second mount 53, second mount 53 drives third fixed block 63 upward movement, third fixed block 63 and the cooperation of point touch switch 62, second spring 64 is compressed, point touch switch 62 opens light 65, light 65 gives out light, will place board 23 and the illumination of sucking disc 52, realize that light 65 illuminates the effect, during the downward movement of second mount 53, second mount 53 drives third fixed block 63 downstream, point touch switch 62 is kept away from to third fixed block 63, second spring 64 resets, make point touch switch 62 close light 65, light 65 stops to give off light.

Still including dustproof mechanism 7, dustproof mechanism 7 is including second fixed plate 71, the pivot 72, dustproof plate 73, supporting seat 74, second fixing base 75 and magnetism inhale piece 76, both sides all are equipped with second fixed plate 71 around the board 23 top of placing of upside, the rotary type is connected with pivot 72 between two second fixed plate 71 upper portions, be equipped with dustproof plate 73 on the pivot 72, the board 23 top right side of placing of upside is equipped with supporting seat 74, two portions all are equipped with second fixing base 75 around the board 23 left side of placing of upside, the board 23 top left side of placing of upside is equipped with magnetism and inhales piece 76, magnetism inhales piece 76 and the cooperation of dustproof plate 73.

There are many dusts in the mill, in order to avoid the erosion of dust, the user lifts dust guard 73 to the right, dust guard 73 drives pivot 72 and rotates, make dust guard 73 and supporting seat 74 contact, dust guard 73 docks on supporting seat 74, the user places ceramic part behind placing board 23, the user pulls dust guard 73 left, dust guard 73 drives pivot 72 antiport, make dust guard 73 and magnetism inhale piece 76 and contact, the magnetism that the piece 76 was inhaled to magnetism adsorbs dust guard 73, make the dust drop on dust guard 73, the reduction of protection ceramic part receives the dust erosion, realize that dust guard 73 blocks the dust effect.

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 principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (6)

1. A multilayer loading apparatus for ceramic parts having high stability, comprising:

the cart (1) is provided with a containing mechanism (2);

the locking mechanism (3) is arranged on the cart (1);

the holding mechanism (2) comprises:

the first fixing frames (21) are arranged on two sides of the cart (1);

eight telescopic rods (22) are arranged between the cart (1) and the first fixing frame (21);

the top ends of the four telescopic rods (22) at the same side are connected with the placing plate (23) through the placing plate (23);

the eight telescopic rods (22) are respectively wound with the first springs (24), two ends of the four first springs (24) on the upper side are respectively connected with the first fixing frame (21) and the placing plate (23), and two ends of the four first springs (24) on the lower side are respectively connected with the placing plate (23) and the cart (1);

the locking mechanism (3) comprises:

the two sides of the two placing plates (23) are provided with the special-shaped grooves (31);

the four sliding blocks (32) are arranged on the two sides of the cart (1) in a sliding manner;

the eight sliding blocks (32) are provided with first wedge blocks (33);

and a first telescopic assembly (34) is connected between the two first wedge blocks (33) on the same side of the first telescopic assembly (34).

2. The multilayer loading apparatus for ceramic parts with high stability according to claim 1, further comprising a clamping mechanism (4), wherein the clamping mechanism (4) comprises:

the top parts of the two placing plates (23) are respectively provided with a first fixed seat (41);

the two first fixing seats (41) are respectively provided with three first clamping blocks (42);

the tops of the two placing plates (23) are respectively provided with three first fixing plates (43);

the six first fixing plates (43) are provided with second telescopic assemblies (44);

the first fixing blocks (45) are arranged on the six second telescopic assemblies (44);

the tops of the second clamping blocks (46) and the six first fixing blocks (45) are provided with the second clamping blocks (46), and the second clamping blocks (46) are matched with the first clamping blocks (42).

3. The multi-deck loading apparatus for ceramic parts with high stability according to claim 2, further comprising an ejecting mechanism (5), wherein the ejecting mechanism (5) comprises:

six third telescopic assemblies (51) are arranged in the middle of the tops of the two placing plates (23);

the top ends of the two third telescopic assemblies (51) on the same side are connected with the sucking disc (52);

the bottoms of the six suckers (52) are provided with second fixed frames (53);

the six second fixing frames (53) are provided with second wedge-shaped blocks (54), and the second wedge-shaped blocks (54) are matched with the first fixing blocks (45).

4. A multilayer loading apparatus for ceramic parts with high stability according to claim 3, further comprising an illumination means (6), wherein the illumination means (6) comprises:

the second fixed block (61) is arranged on the first fixed seat (41) on the upper side of the second fixed block (61);

the bottom of the second fixed block (61) is provided with a point contact switch (62);

the second spring (64) is wound on the point contact switch (62), and two ends of the second spring (64) are respectively connected with the second fixed block (61) and the point contact switch (62);

the third fixing block (63) is arranged on the second fixing frame (53) on the upper side, and the third fixing block (63) is matched with the point contact switch (62);

light (65), all be equipped with four light (65) on two first fixing base (41).

5. The multi-layer loading apparatus for ceramic parts with high stability according to claim 4, further comprising a dust-proof mechanism (7).

6. The multilayer loading apparatus for ceramic parts with high stability according to claim 5, wherein the dust preventing mechanism (7) comprises:

the second fixing plates (71), and the second fixing plates (71) are arranged on two sides of the top of the placing plate (23) on the upper side;

the rotating shafts (72) are rotatably connected between the upper parts of the two second fixing plates (71);

the dust guard (73), the spindle (72) is equipped with the dust guard (73);

the top of the placing plate (23) on the upper side is provided with a supporting seat (74);

the second fixing seats (75) are arranged at two parts of the placing plate (23) at the upper side;

the magnetic attraction block (76) is arranged at the top of the placing plate (23) on the upper side, and the magnetic attraction block (76) is matched with the dust-proof plate (73).

Images