CN215044942U - Ceramic tile storage rack - Google Patents

Abstract

The utility model belongs to the field of ceramic tile storage, and discloses a ceramic tile storage rack, which comprises a rack and a bearing plate which is arranged in the rack in an inclined manner, wherein the bearing plate is provided with a first baffle plate, a mandril which runs through the bearing plate and can be lifted in a reciprocating manner, a baffle which can swing in a reciprocating manner on the upper side and the lower side of the bearing plate, and a link mechanism which drives the mandril and the baffle to move in a reverse direction; the ejector rods and the baffle plates are respectively arranged on the high-level side and the low-level side of the bearing plate and are arranged between the adjacent first partition plates; this technical scheme can realize that the ceramic tile is light loading and unloading on accomodating the frame.

Description

Ceramic tile storage rack

Technical Field

The utility model relates to a field, especially a frame is accomodate to ceramic tile are accomodate to ceramic tile.

Background

The ceramic tile is processed into the finished product from the stock after, all can stack on accomodating the frame, then sorts the packing to the ceramic tile again, and the concrete structure of accomodating the frame can refer to patent application number for 201320078122.3's technical scheme, and it has opened a novel ceramic tile flip structure who picks up the brick machine, contains brick clamping mechanism, ceramic tile transmission line, gear motor, pivot, fortune brick car, ceramic tile buttress, frame, still contains broken line formula roll-over stand, broken line formula roll-over stand convert into by first straight line upset arm and second straight line upset arm and form, the one end of first straight line upset arm articulate the pivot on, the mounting height of pivot with the bottom parallel and level of ceramic tile buttress.

Above-mentioned this equipment mainly divide into the frame as the main part and is located the roll-over stand in the frame, and the roll-over stand will keep flat the ceramic tile upset and establish the state of putting and place in the frame, and the frame is L shape structure, makes the ceramic tile continuous vertical placement and stack on the horizontal direction, and this frame is promptly can accomodate the frame of accomodating of ceramic tile, and the frame of accomodating of L shape structure can be quick accomodate the ceramic tile, nevertheless takes out whole or certain ceramic tile from accomodating the frame and then has comparatively trouble, inconvenient transport.

Therefore, this technical scheme solution problem how realize the ceramic tile and easily load and unload on accomodating the frame.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a frame is accomodate to ceramic tile realizes that the ceramic tile is light loading and unloading on accomodating the frame.

The utility model provides a technical scheme does: a ceramic tile storage rack comprises a rack and a bearing plate which is arranged in the rack in an inclined mode, wherein the bearing plate is provided with first partition plates which are arranged side by side, ejector rods which penetrate through the bearing plate and can lift in a reciprocating mode, baffles which can swing in a reciprocating mode on the upper side and the lower side of the bearing plate, and a connecting rod mechanism which drives the ejector rods and the baffles to move in opposite directions; the ejector rods and the baffle plates are respectively arranged on the high-position side and the low-position side of the bearing plate and are all arranged between the adjacent first partition plates.

In the ceramic tile storage rack, the bearing plate is provided with a groove-shaped hole; the baffle is arranged on the lower side of the groove-shaped hole and is in running fit with the bearing plate.

In the tile storage rack, the groove-shaped hole penetrates through the low side of the bearing plate; a supporting rod penetrating through the groove-shaped hole is arranged between the connecting rod mechanism and the baffle; the support rod is hinged to the baffle, and the support rod is detachably connected with the connecting rod mechanism.

In the above tile storage rack, the link mechanism includes a first link and a second link rotationally engaged with the support plate; the lower end of the ejector rod, the first connecting rod, the second connecting rod and the baffle are sequentially hinged; the support rod is detachably connected with the second connecting rod, and the baffle, the support rod and the second connecting rod form a triangular structure.

In the above tile storage rack, the support rod is connected with the second connecting rod in a pluggable manner through a pin.

In the ceramic tile storage rack, the ejector rod is sleeved with an extension spring positioned between the bearing plate and the connecting rod mechanism.

In the ceramic tile storage rack, the upper end of the ejector rod is provided with a pulley which is in running fit with the ejector rod; the bearing plate is provided with a through hole for the pulley to pass through.

In the ceramic tile storage rack, the two sides of the first partition plate are respectively provided with the speed reduction strips attached to the ceramic tiles.

In the ceramic tile storage rack, a plurality of second partition plates which are arranged corresponding to the first partition plates are arranged at the top of the inner side of the rack.

In the ceramic tile storage rack, a plurality of rollers are arranged at the bottom of the rack.

After the technical scheme is adopted in the utility model, its beneficial effect who has is:

this scheme is through setting up mutually supporting of ejector pin and baffle, place the ceramic tile in the high-order side of bearing board, ceramic tile alright automatic sliding accomodate the frame in, first baffle on the bearing board is fixed a position the terminal surface both sides of ceramic tile, the ceramic tile slides gradually from the high-order side of bearing board (the upper end of bearing board promptly), the bottom of ceramic tile that falls touches the upper end of ejector pin, and push down the ejector pin, the ejector pin descends, under link mechanism's transmission, the downside upswing of baffle from the bearing board, until the side of laminating ceramic tile, it continues the gliding to block the ceramic tile, accomplish and accomodate, when taking out the ceramic tile, manual adjustment baffle downswing, the ceramic tile slides out from the low-order side of bearing board (the lower extreme of bearing board promptly), the people of being convenient for snatch and the transport, realize the ceramic tile and easily load and unload on accomodating the frame.

Drawings

Fig. 1 is a schematic structural view of a tile storage rack according to embodiment 1 of the present invention;

fig. 2 is a partial enlarged view a of fig. 1 of the present invention;

fig. 3 is a front view of a tile storage rack according to embodiment 1 of the present invention.

Reference numerals: 1. a frame; 2. a second separator; 3. ceramic tiles; 4. a first separator; 5. a support plate; 6. a pulley; 7. a top rod; 8. an extension spring; 9. a first link; 10. a second link; 11. a slot-shaped hole; 12. a deceleration strip; 13. a support bar; 14. a baffle plate; 15. pin bolt

Detailed Description

The technical solution of the present invention will be further described in detail with reference to the following detailed description, but the present invention is not limited thereto.

Example 1:

as shown in fig. 1-3, a tile storage rack comprises a rack 1, and a support plate 5 disposed in the rack 1 and inclined, wherein the support plate 5 is provided with a first partition plate 4 disposed side by side, a push rod 7 penetrating through the support plate 5 and capable of lifting and lowering reciprocally, a baffle 14 capable of swinging reciprocally on the upper and lower sides of the support plate 5, and a link mechanism for driving the push rod 7 and the baffle 14 to move in opposite directions; the ejector rods 7 and the baffle plates 14 are respectively arranged on the high-level side and the low-level side of the bearing plate 5 and are arranged between the adjacent partition plates 4.

The storage process comprises the steps that the ejector rod 7 and the baffle plate 14 are matched with each other, the ceramic tile 3 is placed on the high-position side of the bearing plate 5, the ceramic tile 3 can automatically slide into the storage rack, the first partition plate 4 on the bearing plate 5 positions two sides of the end face of the ceramic tile 3, the ceramic tile 3 gradually slides from the high-position side of the bearing plate 5 (namely the upper end of the bearing plate 5), the bottom of the falling ceramic tile 3 touches the upper end of the ejector rod 7 and presses the ejector rod 7 downwards, the ejector rod 7 descends, under the transmission of the connecting rod mechanism, the baffle plate 14 swings upwards from the lower side of the bearing plate 5 until the side surface of the ceramic tile 3 is attached, the ceramic tile 3 is prevented from continuously sliding downwards, the storage is completed, when taking out ceramic tile 3, manual adjustment baffle 14 swings downwards, and ceramic tile 3 follows the low level side (the lower extreme of bearing board 5 promptly) roll-off of bearing board 5, and the people of being convenient for snatch and carry, realize that ceramic tile 3 easily loads and unloads on accomodating the frame.

In the specific design of the bearing plate 5, a groove-shaped hole 11 is formed in the bearing plate 5; the baffle plate 14 is arranged at the lower side of the groove-shaped hole 11 and is in rotating fit with the bearing plate 5.

The principle that the baffle 14 can be manually adjusted is that the groove-shaped hole 11 penetrates through the low-level side of the bearing plate 5; a support rod 13 penetrating through the groove-shaped hole 11 is arranged between the connecting rod mechanism and the baffle plate 14; the support rod 13 is hinged to the baffle 14, and the support rod 13 is detachably connected with the connecting rod mechanism.

The link mechanism can push the baffle 14, acting force is transmitted through the support rod 13, the link mechanism is hinged with the baffle 14 and is relatively and fixedly connected with the support rod 13, the link mechanism ascends to push the support rod 13 to ascend, and the support rod 13 pushes the baffle 14 to rotate around a fulcrum hinged with the bearing plate 5 to realize swinging and ascending of the baffle 14; because the support rod 13 is detachably connected with the link mechanism, after the support rod 13 is detached from the link mechanism, the action force between the baffle 14 and the link mechanism is lost, and the baffle 14 can descend along with the gravity swing, so that the ceramic tile 3 falls and slides out.

The specific structure of the link mechanism is that the link mechanism comprises a first link 9 and a second link 10 which are rotationally matched with the bearing plate 5; the lower end of the ejector rod 7, the first connecting rod 9, the second connecting rod 10 and the baffle 14 are hinged in sequence; the support rod 13 is detachably connected with the second connecting rod 10, and the baffle 14, the support rod 13 and the second connecting rod 10 form a triangular structure.

The operation process of the link mechanism is that one end of the first connecting rod 9 adjacent to the ejector rod 7 descends, one end close to the baffle 14 ascends to drive the second connecting rod 10 to swing and ascend, the second connecting rod 10, the supporting rod 13 positioned on the second connecting rod 10 and the baffle 14 hinged with the second connecting rod 10 form a triangular structure, so that the baffle 14 and the supporting rod 13 also stably swing and ascend together to prevent the ceramic tile 3 from continuously sliding off, when the ceramic tile 3 is required to slide off, the supporting rod 13 is detached from the second connecting rod 10, and the baffle 14 swings downwards to the lower side of the supporting plate 5.

In specific implementation, the support rod 13 and the second connecting rod 10 are connected in a pluggable manner through a pin 15; the pin 15 can be replaced by a bolt which is respectively connected with the support rod 13 and the second connecting rod 10 by screw threads.

In practical application, the ejector rod 7 is sleeved with an extension spring 8 positioned between the bearing plate 5 and the link mechanism.

The reason why the ejector rod 7 can reciprocate is that an extension spring 8 is sleeved between the bottom of the ejector rod 7 and the lower side of the bearing plate 5, when the ejector rod 7 descends, the spring is extended, when the ejector rod 7 resets, the spring contracts to pull up the ejector rod 7, the upper end of the ejector rod 7 is located on the upper side of the bearing plate 5, and a connecting rod mechanism hinged with the ejector rod 7 is driven to reset.

Preferably, the upper end of the ejector rod 7 is provided with a pulley 6 which is in running fit with the ejector rod 7; the bearing plate 5 is provided with a through hole for the pulley 6 to pass through.

The pulley 6 sets up in ejector pin 7 upper end, because of pulley 6 and 3 bottom rolling contact of ceramic tile, makes the accurate stable pulley 6 that pushes down of ceramic tile 3 ability to push down ejector pin 7 can not cause the scratch to the bottom of ceramic tile 3 yet.

In a further improvement, two sides of the first clapboard 4 are respectively provided with a deceleration strip 12 which is attached to the ceramic tile 3; the speed reducing strips 12 are used for rubbing the ceramic tiles 3, so that the sliding speed of the ceramic tiles 3 is reduced, and the ceramic tiles 3 are prevented from being broken or causing danger; the deceleration strip 12 is generally a silica gel strip with high hardness and rough surface.

In implementation and use, the top of the inner side of the frame 1 is provided with a plurality of second partition plates 2 which are arranged corresponding to the first partition plates 4; the upper side and the lower side respectively position the two sides of the end surface of the ceramic tile 3, so that the stability and the safety are improved.

In addition, the bottom of the frame 1 is provided with a plurality of rollers.

The above embodiments are preferred embodiments of the present invention, but the embodiments of the present invention are not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be equivalent replacement modes, and all are included in the scope of the present invention.

Claims (10)

1. A ceramic tile storage rack comprises a rack and a bearing plate which is arranged in the rack in an inclined manner, and is characterized in that the bearing plate is provided with a first partition plate, a push rod, a baffle and a link mechanism, wherein the first partition plate is arranged side by side, the push rod penetrates through the bearing plate and can be lifted in a reciprocating manner, the baffle can swing in a reciprocating manner on the upper side and the lower side of the bearing plate, and the link mechanism drives the push rod and the baffle to move in opposite directions; the ejector rods and the baffle plates are respectively arranged on the high-position side and the low-position side of the bearing plate and are all arranged between the adjacent first partition plates.

2. The tile receiving rack of claim 1, wherein the support plate is provided with a slotted hole; the baffle is arranged on the lower side of the groove-shaped hole and is in running fit with the bearing plate.

3. The tile receiving rack of claim 2, wherein the slotted hole extends through a lower side of the support plate; a supporting rod penetrating through the groove-shaped hole is arranged between the connecting rod mechanism and the baffle; the support rod is hinged to the baffle, and the support rod is detachably connected with the connecting rod mechanism.

4. A tile receiving rack according to claim 3, wherein the linkage comprises a first link, a second link in rotational engagement with the support plate; the lower end of the ejector rod, the first connecting rod, the second connecting rod and the baffle are sequentially hinged; the support rod is detachably connected with the second connecting rod, and the baffle, the support rod and the second connecting rod form a triangular structure.

5. The tile receiving rack of claim 4, wherein the support bar is removably connected to the second link by a pin.

6. The tile receiving rack of claim 1, wherein the post rod is sleeved with a tension spring between the support plate and the link mechanism.

7. The tile storage rack according to claim 6, wherein the upper end of the ejector rod is provided with a pulley which is rotatably matched with the ejector rod; the bearing plate is provided with a through hole for the pulley to pass through.

8. The tile receiving rack according to claim 1, wherein deceleration strips attached to the tiles are disposed on both sides of the first partition plate.

9. The tile storage rack according to claim 1, wherein a plurality of second partition plates are arranged at the top of the inner side of the rack and correspond to the first partition plates.

10. A tile receiving rack according to any one of claims 1 to 9, wherein the bottom of the rack is provided with a plurality of rollers.

Images