CN214686020U - Sand lifting device of glass sand blasting machine - Google Patents

Abstract

The utility model discloses a glass sanding machine carry sand device belongs to glass sanding machine and establishes technical field. A sand extraction device of a glass sanding machine comprises: the sand lifting mechanism and the operation mechanism are installed on the frame mechanism, when sand leaks, the sand can enter a sand lifting groove through the guide plate, when the sand in the sand lifting groove is too much, the corresponding gear connected with the top end of the sand lifting groove is rotated by the forward rotation of the starting motor, the corresponding rotating shaft is rotated, the corresponding traction rope is wound on the rotating shaft, the sand lifting groove is moved upwards, and when the inclined plate at the top end of the sand lifting groove touches the excitation rod, the sand lifting groove is inclined towards the sand inlet funnel.

Description

Sand lifting device of glass sand blasting machine

Technical Field

The utility model belongs to the technical field of glass sanding machine, especially, relate to a glass sanding machine carry sand device.

Background

In the prior art, a sand feeding mechanism is arranged at the top of a glass sanding machine, sand enters the sanding machine from the sand feeding mechanism, glass enters the sanding machine from a feeding part, then the sand is sprayed on the surface of the glass, and then the sand leaves the sanding machine from a discharging part.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved

To the present stage ceramic tile wash port that exists among the prior art very easily blockked up, lead to the drainage effect variation to difficult clearance stops up the problem, the utility model aims to provide a glass sanding machine carry sand device solve present stage ceramic tile wash port very easily and be blockked up, lead to the drainage effect variation, and difficult clearance stops up the problem.

2. Technical scheme

In order to solve the above problems, the utility model adopts the following technical proposal.

A sand extraction device of a glass sanding machine comprises: the sand extracting mechanism and the operation mechanism are arranged on the frame mechanism;

the frame mechanism includes framework, two sets of support columns, and the support column is installed respectively in framework four corners, and the same group of support column closes on the end and has seted up the spout, and the same group of support column closes on the top position and is provided with the excitation pole, and a framework lateral wall top is provided with the mounting panel, and the framework chamber is provided with the sanding machine, and the sanding machine top is provided with into sand hopper, and the framework is provided with the bull stick in the sanding machine bottom, and the activity is provided with the guide board that the slope of matcing sanding machine was placed on the bull stick.

Preferably, carry sand mechanism include with the guide board assorted carry sand groove, the fixed plate, the matching is provided with the slide bar in the spout on the support column of the same group, be provided with the pivot between the support column top of the same group, fixed plate movable sleeve is established on the slide bar, the fixed plate bottom is provided with a plurality of haulage ropes, the haulage rope top is fixed in the pivot, the fixed plate bottom is provided with the buffer board, the buffer board is not connected with the fixed plate, the buffer board bottom is provided with a plurality of first springs, the spring bottom is connected with the framework, carry sand groove and install and close on framework inner chamber one end at the fixed plate, carry sand groove top and be the swash plate of directional guide board.

Preferably, the operating mechanism comprises a first outer gear ring and a second outer gear ring, one end of the mounting plate, which is far away from the rotating shaft, is provided with a first gear and a second gear which are respectively coaxial with the two rotating shafts, the gear directions of the first gear and the second gear are opposite, the first outer gear ring is coaxially sleeved on the first gear, the inner cavity of the first outer gear ring is provided with a plurality of first supporting blocks, the first supporting blocks are movably provided with first movable teeth matched with the first gear, a second spring is arranged between the first movable teeth and the first outer gear ring, the second outer gear ring is coaxially sleeved on the second gear, the inner cavity of the second outer gear ring is provided with a plurality of second supporting blocks, the second supporting blocks are movably provided with second movable teeth matched with the second gear, a third spring is arranged between the second movable teeth and the second outer gear ring, the mounting plate is provided with a third gear, one end of the third gear, which is far away from the mounting plate, is coaxially provided with a motor, the first outer ring gear, the second outer ring gear and the third gear are sleeved with chains.

3. Has the advantages that:

1. to sum up first outer ring gear, first supporting block, first movable tooth, second spring constitute when first outer ring gear anticlockwise rotates, just can make first gear revolve's structure, and second outer ring gear, second movable tooth, second supporting block, third spring constitute and just can make second gear revolve's structure when second outer ring gear clockwise rotates.

2. When the glass sand blasting machine operates, sand enters the sand blasting machine from the sand inlet funnel, when the sand leaks, the sand enters a sand lifting groove through the guide plate, when the sand in the sand lifting groove is excessive, the motor is started to rotate forwardly to enable a corresponding gear connected with the top end of the sand lifting groove to rotate, a corresponding rotating shaft is rotated to enable a corresponding traction rope to be wound on the rotating shaft, the sand lifting groove is enabled to move upwards, when an inclined plate at the top end of the sand lifting groove touches an excitation rod, the sand lifting groove is inclined towards the sand inlet funnel until the sand is poured into the sand inlet funnel, the motor stops at the moment, the sand lifting groove naturally falls due to gravity and resets, when the sand lifting groove moves upwards, the guide plate rotates to be inclined towards the sand lifting groove at the other side, the sand flowing out from the upper part enters the sand lifting groove at the other side, and when the other sand lifting groove is filled with the sand, the motor rotates reversely, and operates as described above.

3. The sand lifting mechanism is provided with two sand lifting grooves, when sand is dumped by the sand lifting groove on one side, the other sand lifting groove works, the operation is reciprocating, and sand flowing out of the sand beating machine during the operation can not be wasted and polluted due to the tight fit.

4. The bottom of the sand lifting groove corresponding to the buffer plate is provided with a buffer plate, so that the sand lifting groove cannot be damaged after falling.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the frame mechanism, the sand lifting mechanism and the operation mechanism of the present invention;

FIG. 3 is a schematic structural view of a sand extracting mechanism of the present invention;

FIG. 4 is a schematic structural view of a sand extracting mechanism of the present invention;

fig. 5 is a schematic structural view of the operation mechanism of the present invention.

The reference numbers in the figures illustrate:

10. a frame mechanism; 110. a sand inlet funnel; 120. sanding machine; 130. a support pillar; 131. a chute; 140. a rotating rod; 150. a frame body; 160. a guide plate; 170. an excitation lever; 180. mounting a plate; 20. a sand extraction mechanism; 210. a sand extraction tank; 220. a fixing plate; 230. a buffer plate; 240. a rotating shaft; 250. a hauling rope; 260. a slide bar; 270. a first spring; 30. an operation mechanism; 310. a first gear; 320. a first outer ring gear; 321. a first movable tooth; 322. a first support block; 323. a second spring; 330. a second gear; 340. a chain; 350. a third gear; 360. a second outer gear ring; 361. a second movable tooth; 362. a second support block; 363. a third spring; 370. an electric motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the mechanism or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

As shown in fig. 1 to 5, a sand extracting apparatus of a glass sander comprises: the sand extracting mechanism 20 and the running mechanism 30 are installed on the frame mechanism 10.

Frame mechanism 10 includes framework 150, two sets of support columns 130, and support columns 130 are installed respectively in framework 150 four corners, and with the adjacent end of group's support column 130 seted up spout 131, with the adjacent top position of group's support column 130 be provided with arouse pole 170, framework 150 a lateral wall top is provided with mounting panel 180, and framework 150 chamber is provided with sanding machine 120, and sanding machine 120 top is provided with into sand funnel 110, and framework 150 is provided with bull stick 140 in sanding machine 120 bottom, and the activity is provided with the guide board 160 that matches sanding machine 120 slope and place on bull stick 140.

The sand lifting mechanism 20 comprises a sand lifting groove 210 matched with the guide plate 160, a fixing plate 220, a sliding rod 260 is arranged in a sliding groove 131 on the same group of supporting columns 130 in a matching manner, a rotating shaft 240 is arranged between the top ends of the same group of supporting columns 130, the fixing plate 220 is movably sleeved on the sliding rod 260, a plurality of traction ropes 250 are arranged at the bottom end of the fixing plate 220, the top end of each traction rope 250 is fixed on the rotating shaft 240, a buffer plate 230 is arranged at the bottom end of the fixing plate 220, the buffer plate 230 is not connected with the fixing plate 220, a plurality of first springs 270 are arranged at the bottom end of the buffer plate 230, the bottom ends of the first springs 270 are connected with a frame body 150, the sand lifting groove 210 is arranged at one end, close to an inner cavity of the frame body 150, and the top end of the sand lifting groove 210 is an inclined plate of the guide plate 160.

The operation mechanism 30 comprises a first external gear ring 320 and a second external gear ring 360, one end of the mounting plate 180, which is far away from the rotating shaft 240, is provided with a first gear 310 and a second gear 330 which are respectively coaxial with the two rotating shafts 240, the gear teeth of the first gear 310 and the second gear 330 are opposite in rotation direction, the first external gear ring 320 is coaxially sleeved on the first gear 310, the inner cavity of the first external gear ring 320 is provided with a plurality of first supporting blocks 322, the first supporting blocks 322 are movably provided with first movable teeth 321 matched with the first gear 310, a second spring 323 is arranged between the first movable teeth 321 and the first external gear ring 320, the second external gear ring 360 is coaxially sleeved on the second gear 330, the inner cavity of the second external gear ring 360 is provided with a plurality of second supporting blocks 362, the second supporting blocks 362 are movably provided with second movable teeth 361 matched with the second gear 330, a third spring 363 is arranged between the second movable teeth 361 and the second external gear ring 360, the mounting plate 180 is provided with a third gear 350, a motor 370 is coaxially arranged at one end of the third gear 350, which is far away from the mounting plate 180, and a chain 340 is sleeved on the first outer gear ring 320, the second outer gear ring 360 and the third gear 350.

To sum up, the first outer gear ring 320, the first supporting block 322, the first movable tooth 321, and the second spring 323 constitute a structure that the first gear 310 rotates only when the first outer gear ring 320 rotates counterclockwise, and the second outer gear ring 360, the second movable tooth 361, the second supporting block 362, and the third spring 363 constitute a structure that the second gear 330 rotates only when the second outer gear ring 360 rotates clockwise.

When the glass sander is in operation, sand enters the sander 120 from the sand inlet hopper 110, when the sand leaks, the sand is guided to enter one sand lifting groove 210 through the guide plate 160, when the sand in the sand lifting groove 210 is excessive, the motor 370 is started to rotate in the forward direction to rotate the corresponding gear connected to the top end of the sand lifting groove 210, the corresponding rotating shaft 240 is rotated, the corresponding pulling rope 250 is wound on the rotating shaft 240 to move the sand lifting groove 210 upwards, when the inclined plate at the top end of the sand lifting groove 210 touches the excitation rod 170, the sand lifting groove 210 inclines towards the sand inlet hopper 110 until the sand is poured into the sand inlet hopper 110, at the moment, the motor 370 stops, the sand lifting groove 210 naturally falls due to gravity, and resets, when the sand lifting groove 210 moves upwards, the guide plate 160 rotates to incline towards the sand lifting groove 210 at the other side, the sand flowing out from the upper part enters the sand lifting groove 210 at the other side, and when the sand lifting groove 210 is moved backwards, the operation is as described above.

The sand lifting mechanism 20 is provided with two sand lifting grooves 210, when sand is dumped from one sand lifting groove 210, the other sand lifting groove 210 works, and the sand is reciprocated in such a way and tightly matched to ensure that the sand flowing out of the sand making machine during working can not be wasted and polluted.

The bottom of the sand extracting groove 210 is provided with a buffer plate 230, so that the sand extracting groove 210 is not damaged after falling.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (3)

1. The utility model provides a glass sanding machine carry sand device which characterized in that includes: the sand extracting mechanism (20) and the operation mechanism (30) are arranged on the frame mechanism (10);

frame mechanism (10) are including framework (150), two sets of support column (130), install respectively in framework (150) four corners support column (130), with group support column (130) close on the end and seted up spout (131), with group support column (130) close on the top position and be provided with actuating lever (170), framework (150) a lateral wall top is provided with mounting panel (180), framework (150) chamber is provided with sanding machine (120), sanding machine (120) top is provided with into sand hopper (110), framework (150) are provided with bull stick (140) in sanding machine (120) bottom, the activity is provided with guide board (160) that the slope of matching sanding machine (120) was placed on bull stick (140).

2. The sand extraction device of the glass sanding machine according to claim 1, characterized in that: the sand extracting mechanism (20) comprises a sand extracting groove (210) matched with the guide plate (160), the fixed plate (220), a sliding rod (260) is arranged in a sliding groove (131) on the supporting columns (130) in the same group in a matching mode, a rotating shaft (240) is arranged between the top ends of the supporting columns (130) in the same group, the fixed plate (220) is movably sleeved on the sliding rod (260), a plurality of traction ropes (250) are arranged at the bottom end of the fixed plate (220), the top ends of the traction ropes (250) are fixed on the rotating shaft (240), a buffer plate (230) is arranged at the bottom end of the fixed plate (220), the buffer plate (230) is not connected with the fixed plate (220), a plurality of first springs (270) are arranged at the bottom end of the buffer plate (230), the bottom end of each first spring (270) is connected with the frame body (150), a sand lifting groove (210) is installed at one end, close to the inner cavity of the frame body (150), and the top end of the sand lifting groove (210) is an inclined plate pointing to the guiding plate (160).

3. The sand extraction device of the glass sanding machine according to claim 1, characterized in that: the operating mechanism (30) comprises a first outer gear ring (320) and a second outer gear ring (360), one end of the mounting plate (180) departing from the rotating shaft (240) is provided with a first gear (310) and a second gear (330) which are respectively coaxial with the two rotating shafts (240), the gear teeth of the first gear (310) and the second gear (330) are opposite in rotation direction, the first outer gear ring (320) is coaxially sleeved on the first gear (310), the inner cavity of the first outer gear ring (320) is provided with a plurality of first supporting blocks (322), the first supporting blocks (322) are movably provided with a plurality of first movable teeth (321) matched with the first gear (310), a second spring (323) is arranged between the first movable teeth (321) and the first outer gear ring (320), the second outer gear ring (360) is coaxially sleeved on the second gear (330), the inner cavity of the second outer gear ring (360) is provided with a plurality of second supporting blocks (362), and the second movable teeth (361) matched with the second gear (330) are movably arranged on the second supporting blocks (361), a third spring (363) is arranged between the second movable gear (361) and the second outer gear ring (360), a third gear (350) is arranged on the mounting plate (180), one end, deviating from the mounting plate (180), of the third gear (350) is coaxially provided with a motor (370), and a chain (340) is sleeved on the first outer gear ring (320), the second outer gear ring (360) and the third gear (350).

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