CN214563953U - Lifting device of ceramic printer - Google Patents

Abstract

The application relates to a lifting device of a ceramic printer, which relates to the field of ceramic printers and comprises a support column, a lifting platform and a driving assembly, wherein the support column is vertically arranged, the lifting platform is horizontally arranged and is in sliding connection with the support column, the driving assembly comprises a driving motor, a gear and a rack, and the rack is vertically arranged and is fixedly connected with the lifting platform; the gear is meshed with the rack and is rotationally connected with the support column; driving motor sets up on the top of support column and with support column fixed connection, driving motor's output and the coaxial fixed connection of gear, the last fixed location strip that is provided with of lift platform, the location strip is provided with two, and equal vertical setting, location strip and support column sliding connection. This application has the more convenient effect of accommodation process that makes ceramic printer height.

Description

Lifting device of ceramic printer

Technical Field

The application relates to the field of ceramic printers, in particular to a lifting device of a ceramic printer.

Background

The ceramic material has excellent performances of high strength, high temperature resistance, good chemical stability and the like. However, the ceramic is difficult to form in the production process, and the ceramic printer is a novel ceramic production device utilizing a rapid forming technology and is widely applied to the production process of the ceramic at present.

In the existing ceramic printer, undried ceramic clay is conveyed to a nozzle position of the ceramic printer through an extrusion device and a guide pipe, and then the nozzle of the ceramic printer moves in a three-dimensional space, so that the undried ceramic clay is sprayed out, and the ceramic clay is accumulated into a desired model, thereby completing the molding of the ceramic clay.

To the above-mentioned correlation technique, the inventor thinks that the ceramic printer may need to adjust the height of the ceramic printer because of the change of the working environment or the height difference of the operator in the use process, and the existing ceramic printer usually lacks a special lifting device, so that the process of adjusting the height of the ceramic printer is troublesome.

SUMMERY OF THE UTILITY MODEL

In order to make the accommodation process of ceramic printer height more convenient, this application provides a ceramic printer's elevating gear.

The application provides a ceramic printer's elevating gear adopts following technical scheme:

a lifting device of a ceramic printer comprises a supporting column, a lifting platform and a driving assembly, wherein the supporting column is vertically arranged, the lifting platform is horizontally arranged and is in sliding connection with the supporting column, the driving assembly comprises a driving motor, a gear and a rack, and the rack is vertically arranged and is fixedly connected with the lifting platform; the gear is meshed with the rack and is rotationally connected with the support column; the driving motor is arranged at the top end of the supporting column and fixedly connected with the supporting column, and the output end of the driving motor is coaxially and fixedly connected with the gear.

Through adopting above-mentioned technical scheme, place ceramic printer on lift platform, when ceramic printer's high needs were adjusted, driving motor's output drove gear revolve, and wheel and rack toothing for the rack slides on the support column along vertical direction, thereby drives lift platform and reciprocates, makes the accommodation process of ceramic printer height more convenient.

Optionally, the lifting platform is fixedly provided with two positioning strips, the two positioning strips are arranged vertically, and the positioning strips are connected with the supporting columns in a sliding mode.

Through adopting above-mentioned technical scheme, when lift platform reciprocated along vertical direction, two location strips can slide on the support column along vertical direction simultaneously for lift platform can be at the in-process that removes the in-process level that remains all the time, thereby guarantee ceramic printer at the stability of lift in-process, reduce the possibility that ceramic printer breaks away from lift platform at height-adjusting's in-process.

Optionally, the positioning strip is T-shaped, two positioning grooves are formed in the supporting column, and the two positioning strips are respectively located in two different positioning grooves.

Through adopting above-mentioned technical scheme, set up the shape of location strip into the T type, seted up two constant head tanks simultaneously on the support column, when the location strip slides along vertical ascending direction, two location strips set up respectively in two different constant head tanks for the stability of location strip in the removal process is better, thereby ensures that lift platform can follow vertical direction and slide on the lift post.

Optionally, a supporting rod is fixedly arranged at the top end of the positioning strip, and one end of the supporting rod, far away from the positioning strip, is fixedly connected with one end of the lifting platform, far away from the lifting column.

Through adopting above-mentioned technical scheme, the fixed bracing piece that sets up in the top of location strip to with the one end fixed connection who keeps away from the location strip of bracing piece on lift platform, thereby utilize the bracing piece to play fixed effect to the one end that lift platform kept away from the support column, thereby reduce lift platform and keep away from the one end of support column and because the atress is too big and the possibility that warp appears.

Optionally, a placing groove is formed in the lifting platform.

Through adopting above-mentioned technical scheme, set up the standing groove on lift platform, when placing ceramic printer on lift platform, can place ceramic printer in the standing groove, the cell wall of standing groove can play spacing effect to ceramic printer's bottom to reduce the migration range of ceramic printer on lift platform, reduce the possibility that ceramic printer drops from lift platform.

Optionally, a plurality of supporting plates are arranged in the lifting platform, the supporting plates are vertically arranged in the placing groove, one end of each supporting plate is hinged to the lifting platform, and the supporting plates are abutted to the groove wall of the placing groove.

Through adopting above-mentioned technical scheme, set up a plurality of backup pads on supporting platform, and with the vertical setting of backup pad in the standing groove, when lift platform slides on the support column along vertical direction, the backup pad can play the effect that blocks to ceramic printer, further reduce the possibility that ceramic printer drops from lift platform, it is articulated with lift platform with the backup pad simultaneously, when lift platform was idle, rotate the backup pad, make the backup pad level, thereby reduce lift platform's height, play the effect of practicing thrift the space.

Optionally, the placing groove is connected with a rotating plate in a rotating mode, the rotating plate is circular, the rotating plate is horizontally arranged, and a fixing piece is arranged between the rotating plate and the lifting platform.

Through adopting above-mentioned technical scheme, when needs adjust ceramic printer angle on the horizontal direction, rotate ceramic printer to drive the rotor plate and rotate on lift platform, then utilize the mounting to fix rotor plate and lift platform, thereby realize the adjustment to ceramic printer angle.

Optionally, a plurality of fixed slots have been seted up on the rotor plate, and the fixed slot has evenly been set up in the edge of rotor plate along the circumference of rotor plate, has seted up the fixed orifices on the lift platform, and the mounting is the fixed pin, and the fixed pin setting is in the fixed slot and insert and establish in the fixed orifices.

Through adopting above-mentioned technical scheme, when fixing rotor plate and lift platform, finely tune the rotor plate for a fixed slot on the rotor plate is corresponding with the fixed orifices, makes the fixed orifices be located the fixed slot under. Then penetrate the fixed pin in fixed slot and the fixed orifices in proper order to it is fixed with lift platform with the rotor plate.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the lifting platform is connected with the supporting column in a sliding mode and is driven by the driving assembly, so that the lifting platform can slide on the supporting column in the vertical direction, and the height of the ceramic printer is adjusted more conveniently;

2. the two positioning strips are fixedly arranged on the lifting platform, and the positioning strips are used for limiting the movement of the lifting platform, so that the lifting platform can be kept horizontal when moving along the vertical direction;

3. the ceramic printer is rotatably connected to the lifting platform through the rotating plate, and the rotating plate and the lifting platform are fixed through the fixing pin, so that the angle of the ceramic printer in the horizontal direction can be adjusted.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present application;

fig. 2 is an exploded schematic view intended to show a fixing hole.

Description of reference numerals: 1. a support pillar; 11. a sliding groove; 12. positioning a groove; 2. a base; 21. a rotating wheel; 3. a lifting platform; 31. a placement groove; 311. a fixing hole; 32. a rotating plate; 321. fixing grooves; 322. a fixing pin; 33. a support plate; 34. a positioning bar; 35. a support bar; 4. a drive assembly; 41. a drive motor; 42. a gear; 43. a rack.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses elevating gear of ceramic printer. Referring to fig. 1, a ceramic printer's elevating gear includes support column 1, base 2 and lift platform 3, and the vertical setting of support column 1, the bottom and the base 2 fixed connection of support column 1, lift platform 3 level set up and with support column 1 sliding connection, lift platform 3's slip direction is vertical direction, elevating gear still includes and is used for driving the gliding drive assembly 4 of lift platform 3.

When highly adjusting ceramic printer, place ceramic printer in the top of lift platform 3 earlier, then utilize drive assembly 4 drive lift platform 3 for lift platform 3 slides on support column 1 along vertical direction, thereby realizes the regulation to ceramic printer height.

Referring to fig. 1 and 2, the lifting platform 3 is in a square plate shape, a placing groove 31 is formed in the middle of the lifting platform 3, the cross section of the placing groove 31 is square, a rotating plate 32 is rotatably connected to the bottom of the placing groove 31, the rotating plate 32 is circular and horizontally arranged, a plurality of fixing grooves 321 are formed in the rotating plate 32, the fixing grooves 321 are uniformly formed in the edge of the rotating plate 32 along the circumferential direction of the rotating plate 32, fixing holes 311 are formed in the lifting platform 3, fixing pieces penetrate through the fixing holes 311 and are fixing pins 322, and the fixing pins 322 are vertically arranged and located in the fixing grooves 321; the tank bottom of the placing groove 31 is further provided with four supporting plates 33, the supporting plates 33 are triangular and vertically arranged, the supporting plates 33 are respectively arranged at the tank walls of the placing groove 31, the inclined edges of the supporting plates 33 are hinged with the tank walls of the placing groove 31, and one surface, far away from the middle of the placing groove 31, of the supporting plates 33 is abutted to the tank walls of the placing groove 31.

Placing the ceramic printer on the rotating plate 32, so that the supporting plate 33 is arranged around the ceramic printer, thereby supporting the ceramic printer; then, the ceramic printer is rotated to drive the rotating plate 32 to rotate on the lifting platform 3, and then the fixing pin 322 passes through the fixing groove 321 and is inserted into the fixing hole 311, so that the rotating plate 32 and the lifting platform 3 are fixed, and the angle of the ceramic printer in the horizontal direction is adjusted.

Referring to fig. 1, the support column 1 is rectangular plate-shaped, a sliding groove 11 is formed in the middle of the support column 1, and the length direction of the sliding groove 11 is vertical. The driving assembly 4 comprises a driving motor 41, a gear 42 and a rack 43, the rack 43 is positioned in the sliding groove 11 and is in sliding connection with the sliding groove 11, and the rack 43 is fixedly connected with the lifting platform 3; the gear 42 is positioned in the sliding groove 11 and on one side of the rack 43 away from the lifting platform 3, and the gear 42 is meshed with the rack 43 and is rotationally connected with the supporting column 1; the driving motor 41 is fixedly arranged at the top end of the supporting column 1, and the output end of the driving motor 41 is coaxially and fixedly connected with the gear 42.

When adjusting the height of ceramic printer, output drive gear 42 of driving motor 41 rotates to drive rack 43 to slide in sliding tray 11 along vertical direction, make lift platform 3 drive ceramic printer and slide in vertical direction, thereby realize the regulation to ceramic printer height.

Referring to fig. 1, constant head tank 12 has still been seted up on support column 1, and constant head tank 12 is provided with two and is the type of falling T, and two constant head tanks 12 are vertical setting, and are located 11 length direction's of sliding tray both sides respectively, and sliding connection has location strip 34 in two constant head tanks 12 respectively, location strip 34's bottom and lift platform 3 fixed connection. The equal fixedly connected with bracing piece 35 in top of two location strips 34, the slope of bracing piece 35 sets up, and the one end fixed connection of support column 1 is kept away from with lift platform 3 to the bottom of bracing piece 35.

Drive lift platform 3 and slide along vertical direction when driving motor 41, bracing piece 35 can play fixed effect with location strip 34 to the one end that lift platform 3 kept away from support column 1, when lift platform 3 removed along vertical direction, two location strips 34 slided in constant head tank 12 along vertical direction simultaneously, thereby play spacing effect to lift platform 3's slip direction, make lift platform 3 can keep the level, thereby strengthen lift platform 3 and go up ceramic printer's steadiness.

Referring to fig. 1, the base 2 is rectangular and horizontally disposed, and a plurality of rotating wheels 21 are fixedly disposed at the bottom end of the base 2.

When the ceramic printer is moved, the support column 1 is pushed to rotate the rotating wheel 21, so that the ceramic printer can be moved in the horizontal direction.

The implementation principle of the lifting device of the ceramic printer is as follows: when the lifting device is used for adjusting the height of the ceramic printer, the ceramic printer is firstly placed on the rotating plate 32, so that the supporting plate 33 is arranged around the ceramic printer, then the ceramic printer is rotated, the rotating plate 32 is driven to rotate on the lifting platform 3, and then the fixing pin 322 penetrates through the fixing groove 321 and is inserted into the fixing hole 311, so that the rotating plate 32 and the lifting platform 3 are fixed; the output end of the driving motor 41 drives the gear 42 to rotate, so that the rack 43 is driven to slide in the sliding groove 11 along the vertical direction, the lifting platform 3 drives the ceramic printer to slide in the vertical direction, and the height adjusting process of the ceramic printer is more convenient.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A ceramic printer's elevating gear which characterized in that: the lifting device comprises a supporting column (1), a lifting platform (3) and a driving assembly (4), wherein the supporting column (1) is vertically arranged, the lifting platform (3) is horizontally arranged and is in sliding connection with the supporting column (1), the driving assembly (4) comprises a driving motor (41), a gear (42) and a rack (43), and the rack (43) is vertically arranged and is fixedly connected with the lifting platform (3); the gear (42) is meshed with the rack (43) and is rotationally connected with the support column (1); the driving motor (41) is arranged at the top end of the supporting column (1) and is fixedly connected with the supporting column (1), and the output end of the driving motor (41) is coaxially and fixedly connected with the gear (42).

2. The elevating device of a ceramic printer according to claim 1, wherein: fixed location strip (34) that is provided with on lift platform (3), location strip (34) are provided with two, and equal vertical setting, location strip (34) and support column (1) sliding connection.

3. The elevating device of a ceramic printer according to claim 2, wherein: the positioning strips (34) are T-shaped, two positioning grooves (12) are formed in the supporting column (1), and the two positioning strips (34) are respectively located in two different positioning grooves (12).

4. The elevating device of a ceramic printer according to claim 3, wherein: the top end of the positioning strip (34) is fixedly provided with a supporting rod (35), and one end, far away from the positioning strip (34), of the supporting rod (35) is fixedly connected with one end, far away from the lifting column, of the lifting platform (3).

5. The elevating device of a ceramic printer according to claim 1, wherein: a placing groove (31) is formed in the lifting platform (3).

6. The elevating device of a ceramic printer according to claim 5, wherein: a plurality of supporting plates (33) are arranged in the lifting platform (3), the supporting plates (33) are vertically arranged in the placing groove (31), one end of each supporting plate (33) is hinged to the lifting platform (3), and the supporting plates (33) are abutted to the groove walls of the placing groove (31).

7. The elevating device of a ceramic printer according to claim 5, wherein: the rotary plate (32) is rotatably connected in the placing groove (31), the rotary plate (32) is circular, the rotary plate (32) is horizontally arranged, and a fixing part is arranged between the rotary plate (32) and the lifting platform (3).

8. The elevating device of a ceramic printer according to claim 7, wherein: a plurality of fixing grooves (321) are formed in the rotating plate (32), the fixing grooves (321) are evenly formed in the edge of the rotating plate (32) along the circumferential direction of the rotating plate (32), a fixing hole (311) is formed in the lifting platform (3), the fixing piece is a fixing pin (322), and the fixing pin (322) is arranged in the fixing grooves (321) and inserted into the fixing hole (311).

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