CN209855177U - Slurry paving equipment - Google Patents

Abstract

The utility model provides a spread thick liquid equipment, spread thick liquid equipment includes: the storage hopper is provided with a discharge hole; the material distributing device is provided with an inlet and an outlet communicated with the inlet, the inlet is communicated with the discharge port, and the outlet is positioned below the inlet; the driving device is connected with the storage hopper and the material distributing device respectively, is arranged corresponding to the discharge port and can drive the materials in the storage hopper to flow from the discharge port to the inlet; the material distributing device is internally provided with at least one partition plate, and the partition plate extends from an inlet to an outlet so that the material flows out from the outlet after being divided by the partition plate from the inlet. The utility model provides a spread thick liquid equipment is provided with the division board in the feed divider to make the material dispersion that gets into feed divider export, and then make the material surface after laying more level and more smooth.

Description

Slurry paving equipment

Technical Field

The utility model relates to a construction equipment technical field particularly, relates to a shop's thick liquid equipment.

Background

At present, mortar needs to be paved manually when the floor tiles are paved in the related technology, and the working efficiency is low.

SUMMERY OF THE UTILITY MODEL

The present invention aims at least solving one of the technical problems existing in the prior art or the related art.

Therefore, the utility model provides a slurry paving equipment.

In view of this, the utility model provides a spread thick liquid equipment includes: the moving device is provided with a storage hopper, and the storage hopper is provided with a discharge hole; the material distributing device is provided with an inlet and an outlet communicated with the inlet, the inlet is communicated with the discharge port, and the outlet is positioned below the inlet; the driving device is connected with the storage hopper and the material distributing device respectively, the driving device is arranged corresponding to the discharge port, and the driving device can drive the materials in the storage hopper to flow from the discharge port to the inlet; the material distributing device is internally provided with at least one partition plate, and the partition plate extends from an inlet to an outlet so that the material flows out from the outlet after being divided by the partition plate from the inlet.

The utility model provides a spread thick liquid equipment, including the storage hopper, feed divider and drive arrangement, the material in the drive arrangement drive storage hopper flows to feed divider's import by the discharge gate, and flow by the export, be provided with the division board in the feed divider, the division board extends by import to the export direction, the material gets into feed divider by the import, the division board is separated the material, so that the material dispersion that gets into feed divider is in the export, and then make the material surface after laying more level and more smooth, avoid the material to fall into feed divider after concentrate together and make the emergence of laying the condition of waiting to lay the material unevenness on the road surface.

Furthermore, the division plate is arranged along the vertical direction, the outlet is arranged below the inlet, and the material flows to the outlet after being separated by the division plate under the action of gravity after entering the inlet.

Specifically, the material includes mortar, adhesive, mortar, and the like.

According to the utility model provides an foretell shop's thick liquid equipment can also have following additional technical characterstic:

in the above technical solution, preferably, the number of the partition plates is at least two, and the at least two partition plates are uniformly arranged in the material dividing device.

In this technical scheme, the quantity of division board is two at least, and two at least division boards set up in feed divider uniformly for the material can distribute at the exit position uniformly behind the division board, and then makes the material surface after laying more level and more smooth.

In any of the above technical solutions, preferably, the number of the partition plates is at least two, and the flow area of two adjacent partition plates close to the center of the inlet along the horizontal direction is smaller than the flow area of two adjacent partition plates far from the center of the inlet.

In the technical scheme, when a large-area pavement is laid, the feeding amount of materials is also larger, the pressure of the materials at the inlet is larger, so that the pressure close to the center of the inlet in the horizontal direction is larger, the flow rate of the materials is correspondingly faster, the pressure far away from the center of the inlet is smaller, the flow rate of the materials is correspondingly smaller, namely, the pressure generated by the materials at the center of the corresponding inlet on the partition plates is larger, the pressure generated by the materials at two sides on the partition plates is correspondingly smaller, therefore, the overflow area of two adjacent partition plates close to the center of the inlet is designed to be smaller than the overflow area of two adjacent partition plates far away from the center of the inlet in the horizontal direction, the amount of the materials flowing between two adjacent partition plates close to the center of the inlet in unit time is the same as the amount of the materials flowing between two adjacent partition plates far away from the center of the inlet, namely, thereby make the pressure of the material of each position of exit the same for the unloading is more even, and then makes the surface of the material of laying out more level and more smooth.

In any of the above technical solutions, preferably, the material dividing device includes: the inlet is positioned on the accommodating cavity; the fixing part is connected with the accommodating cavity and is positioned in the accommodating cavity, and the outlet is positioned on the fixing part; the switch portion, switch portion and fixed part sliding connection, the export can be opened or closed to the sliding switch portion.

In this technical scheme, feed divider holds the chamber and is used for holding the material including holding the chamber, setting fixed part and the switch portion that holds the intracavity, fixed part with hold chamber fixed connection, switch portion and fixed part sliding connection, the export setting can open or close the export through the sliding switch portion on the fixed part, and then realizes the start and the stop of shop's thick liquid operation. Further, the switch portion can realize reciprocating linear motion on the fixed portion.

Specifically, hold the chamber and include the support body and set up front panel and the rear panel in the support body both sides.

In any one of the above technical solutions, preferably, the opening and closing portion is provided with an opening, and the opening and the outlet are correspondingly provided when the outlet is opened by the opening and closing portion.

In this technical scheme, be provided with the opening on the switch portion, when sliding the opening to be linked together with the export, realized opening the effect of export, when sliding the opening to not be linked together with the export, switch portion seals the export promptly, has realized closing the effect of export.

In any of the above technical solutions, preferably, the number of the outlets is plural, and the plural outlets are uniformly arranged on the fixing portion; wherein the number of openings corresponds to the number of outlets.

In this technical scheme, the quantity of export is a plurality of, and then make the material flow by a plurality of exports, so that the material is laid subaerially fast, a plurality of exports set up on the fixed part uniformly, and then make the material lay subaerially more uniformly, further, open-ended quantity is unanimous with the quantity of export, a plurality of openings and a plurality of exports equidistant arranging respectively on switch portion and fixed part, and then when switch portion opens the export, a plurality of exports all correspond the setting and the intercommunication with the opening, so that import, the opening, the export is linked together, the material flows to ground by the export, when switch portion closes the export, a plurality of exports do not correspond the setting and do not communicate with the opening, so that the opening closes, the material stops to flow to ground by the export.

In any of the above solutions, preferably, the size of the opening is the same as the size of the outlet.

In this technical scheme, the size of open-ended is the same with the size of export, and then the material can be fast flowed by the export when the opening sets up with the export is corresponding.

In any of the above technical solutions, preferably, the shape of the opening includes any of: round, square, trapezoidal.

In this embodiment, the shape of the opening includes any one of: round, square, trapezoidal, but other shapes can be designed.

Further, the opening and the outlet are rectangular holes.

In any one of the above technical solutions, preferably, the number of the fixing portions is two, the two fixing portions are stacked in the vertical direction, and the switch portion is clamped between the two fixing portions.

In this technical scheme, switch portion centre gripping is between two fixed parts, and then realizes the sliding connection of switch portion and fixed part. Further, the switch portion slides between the two fixing portions in the arrangement direction of the plurality of openings.

In any of the above technical solutions, preferably, the slurry spreading apparatus further includes: and the scraping plate is connected with the material distributing device, is positioned on one side of the material distributing device, which deviates from the storage hopper, corresponds to the outlet and is used for flattening the material flowing out from the outlet.

In this technical scheme, be provided with on the powder device and scrape the flitch for level by the material that the export flows, scrape the flitch and correspond the export setting, after the material flows by the export, scrape the flitch and strickle the material, in order to reach and to lay the even, more level and more smooth purpose of subaerial material thickness of waiting to lay.

In any one of the above technical solutions, preferably, the scraping plate is provided with teeth, and the teeth are uniformly arranged on the scraping plate.

In this technical scheme, be provided with tooth portion on the scraping plate, tooth portion is located the both ends of scraping the flitch along vertical direction, and the material can flow to waiting to lay subaerially by the clearance of tooth portion, and tooth portion evenly sets up on scraping the flitch for lay to wait to lay subaerial material and evenly set up.

In any of the above aspects, preferably, the shape of the tooth portion includes any of: trapezoidal, square, triangular.

In this aspect, the shape of the tooth portion includes any one of: trapezoidal, square, triangle-shaped to can scrape the material cross-section of corresponding shape on ground, lay the requirement with the material that satisfies different.

In any of the above technical solutions, preferably, the scraper plate is connected with the material dividing device in a sliding manner in a vertical direction.

In the technical scheme, the scraping plate is connected with the material distributing device in a sliding mode in the vertical direction, so that the height of the scraping plate can be adjusted, and the materials with different thicknesses can be laid.

In any one of the above technical solutions, preferably, the driving device includes: the auger is arranged outside the storage hopper and corresponds to the discharge port; and the motor is connected with the packing auger and used for driving the packing auger to rotate so as to convey materials to the material distribution device.

In the technical scheme, the driving device comprises an auger and a motor, the motor drives the auger to rotate so as to convey materials to the material distribution device, specifically, the auger can be arranged in the storage hopper or outside the storage hopper, further, the auger can be arranged in the storage hopper along the vertical direction, the motor adopts an automatic guide transport vehicle to supply power, when paving operation is carried out, the motor rotates forwards to drive the auger to rotate clockwise so as to convey materials to the material distribution hopper, and paving operation is completed; when not spreading the operation, the motor antiport drives the auger anticlockwise rotation, prevents the transport of material, simultaneously, accomplishes the stirring of the material in the storage hopper. Of course, the packing auger can also be arranged outside the storage hopper, and further, the packing auger can be installed in an inclined mode or a horizontal mode.

Furthermore, the driving device also comprises a speed reducer and a coupler, wherein the speed reducer is connected with the motor, and the coupler is used for connecting the speed reducer and the packing auger. Further, the driving device also comprises a bearing arranged between the packing auger and the coupler.

In any of the above technical solutions, preferably, the slurry spreading apparatus further includes: the storage hopper is arranged on the moving device; and the control device is connected with the moving device and the motor and controls the thickness of the material paved on the ground to be paved by controlling the moving speed of the moving device and the rotating speed of the motor.

In the technical scheme, the slurry paving equipment further comprises a moving device and a control device, wherein the moving device drives the material distributing device, the driving device and the storage hopper to move, so that the technical effect of automatic paving and pasting is realized; the control device is connected with the moving device and the motor, the conveying speed of the materials can be controlled by controlling the rotating speed of the motor, the thickness of the materials paved on the ground to be paved can be controlled by controlling the moving speed of the moving device and the rotating speed of the motor, the moving speed of the moving device is matched with the rotating speed of the motor, and the slurry paving effect with different thicknesses can be obtained.

In any of the above solutions, preferably, the moving device is an automated guided vehicle or a manual moving device.

In the technical scheme, the moving device can be an AGV (automatic guided vehicle), and the automatic guided vehicle can perform automatic navigation and automatic positioning, so that an automatic paving effect is realized, and of course, the moving device can also be a hand-push type moving device.

Specifically, the mortar enters the material distribution device through pushing of the packing auger, under the action of the partition plates, the mortar entering the material distribution device is finally and uniformly distributed at the position of a discharge port of the material distribution device, and the partition plates are uniformly distributed in a containing cavity of the material distribution device, so that the mortar can be uniformly distributed at the lower part of the containing cavity after entering from an inlet. The outlet position of the material distributing device is provided with a linear reciprocating type switch structure for controlling the start and stop of mortar laying, the linear reciprocating type switch structure consists of two fixed plates (fixed parts) and a movable plate (switch part), the fixed plates are fixed with the main body of the material distributing device, the movable plate is clamped by the two fixed plates, rectangular holes are formed in the fixed plates and the movable plate at equal intervals, and the effect of opening and closing the outlet in a linear reciprocating manner can be achieved by moving the movable plate in a reciprocating manner. The scraping plates are installed on the outer sides of the material distributing devices, tooth portions of the scraping plates are designed to be trapezoidal, rectangular or triangular, so that mortar sections of corresponding shapes can be scraped on the ground to meet the paving requirements of mortar, and the heights of the scraping plates from the ground are adjustable, so that the paving of different mortar thicknesses is realized.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 shows a schematic structural view of a slurry spreading device according to an embodiment of the present invention;

fig. 2 shows a schematic diagram of a partial explosion structure of a slurry spreading device according to an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the component names in fig. 1 and fig. 2 is:

1 pulp spreading equipment, 10 moving devices, 12 storage hoppers, 120 discharge ports, 14 material dividing devices, 140 inlets, 141 outlets, 142 partition plates, 143 fixing portions, 144 switch portions, 145 frame bodies, 146 front panels, 147 rear panels, 16 driving devices, 160 packing augers, 162 motors and 18 scraping plates.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

A slurry spreading apparatus 1 according to some embodiments of the present invention is described below with reference to fig. 1 and 2.

According to the utility model discloses an embodiment, the utility model provides a shop's thick liquid equipment 1, include: the device comprises a mobile device 10, wherein a storage hopper 12 is arranged on the mobile device 10, and a discharge hole 120 is formed in the storage hopper 12; the feed divider 14, the feed divider 14 has an inlet 140 and an outlet 141 communicated with the inlet 140, the inlet 140 is communicated with the discharge port 120, and the outlet 141 is positioned below the inlet 140; the driving device 16 is connected with the storage hopper 12 and the material distribution device 14 respectively, the driving device 16 is arranged corresponding to the discharge port 120, and the driving device 16 can drive the material in the storage hopper 12 to flow from the discharge port 120 to the inlet 140; at least one partition plate 142 is arranged in the material separating device 14, and the partition plate 142 extends from the inlet 140 to the outlet 141, so that the material is separated by the inlet 140 through the partition plate 142 and then flows out of the outlet 141.

As shown in fig. 1, the utility model provides a spread thick liquid equipment 1, including storage hopper 12, feed divider 14 and drive arrangement 16, the material in the drive arrangement 16 drive storage hopper 12 flows to feed divider 14's import 140 by discharge gate 120, and flow by export 141, be provided with division board 142 in the feed divider 14, division board 142 is extended by import 140 to export 141 direction, the material gets into feed divider 14 by import 140, division board 142 separates the material, so that the material dispersion that gets into feed divider 14 is at export 141, and then make the material surface after laying more level and smooth, avoid the material to fall into behind feed divider 14 and concentrate together and make the emergence of laying the condition of the material unevenness on waiting to lay the road surface.

Further, the partition plate 142 is arranged in the vertical direction, the outlet 141 is arranged below the inlet 140, and the material enters the inlet 140 and flows to the outlet 141 after being divided by the partition plate 142 under the action of gravity.

Specifically, the material includes mortar, adhesive, mortar, and the like.

In the above embodiment, it is preferable that the number of the partition plates 142 is at least two, and at least two partition plates 142 are uniformly provided in the feed divider 14.

In this embodiment, the number of the partition plates 142 is at least two, and the at least two partition plates 142 are uniformly disposed in the material distribution device 14, so that the material can be uniformly distributed at the position of the outlet 141 after passing through the partition plates 142, and the surface of the laid material is more flat.

In any of the above embodiments, preferably, the number of the partition plates 142 is at least two, and the flow area of two adjacent partition plates 142 close to the center of the inlet port 140 in the horizontal direction is smaller than the flow area of two adjacent partition plates 142 far from the center of the inlet port 140.

In this embodiment, when a large area is paved, the feeding amount of the material is also larger, the pressure of the material at the inlet 140 is larger, and thus the pressure at the position close to the center of the inlet 140 in the horizontal direction is larger, the flow rate of the material is correspondingly faster, the pressure at the position far from the center of the inlet 140 is smaller, and the flow rate of the material is correspondingly smaller, that is, the pressure generated by the material at the position corresponding to the center of the inlet 140 to the partition plate 142 is larger, and the pressure generated by the material at the two sides to the partition plate 142 is correspondingly smaller, so that the overflow area of two adjacent partition plates 142 close to the center of the inlet 140 is designed to be smaller than the overflow area of two adjacent partition plates 142 far from the center of the inlet 140 in the horizontal direction, so that the amount of the material flowing between two adjacent partition plates 142 close to the center of the inlet 140 is the same as the amount of, the overflowing area is matched with the pressure of the material, so that the pressure of the material at each position of the outlet 141 is the same, the blanking is more uniform, and the surface of the paved material is smoother.

In any of the above embodiments, preferably, the material dividing device 14 includes: a receiving chamber, on which the inlet 140 is located; the fixing part 143 is connected with the accommodating cavity and is positioned in the accommodating cavity, and the outlet 141 is positioned on the fixing part 143; the switch portion 144, the switch portion 144 and the fixing portion 143 are slidably connected, and the sliding switch portion 144 can open or close the outlet 141.

As shown in fig. 2, in this embodiment, the material separating device 14 includes an accommodating cavity, a fixing portion 143 and a switch portion 144, the fixing portion 143 and the switch portion 144 are disposed in the accommodating cavity, the accommodating cavity is used for accommodating materials, the fixing portion 143 is fixedly connected with the accommodating cavity, the switch portion 144 is slidably connected with the fixing portion 143, the outlet 141 is disposed on the fixing portion 143, and the outlet 141 can be opened or closed by sliding the switch portion 144, so as to start and stop the slurry spreading operation. Further, the opening and closing part 144 can perform a reciprocating linear motion on the fixing part 143.

Specifically, as shown in fig. 2, the receiving chamber includes a frame body 145, and a front panel 146 and a rear panel 147 disposed at both sides of the frame body 145.

In any of the above embodiments, preferably, the opening and closing part 144 is provided with an opening, and when the opening and closing part 144 opens the outlet 141, the opening is provided corresponding to the outlet 141.

As shown in fig. 2, in this embodiment, the opening and closing part 144 is provided with an opening, and when the opening is slid to communicate with the outlet 141, an effect of opening the outlet 141 is achieved, and when the opening is slid to not communicate with the outlet 141, that is, the opening and closing part 144 closes the outlet 141, an effect of closing the outlet 141 is achieved.

In any of the above embodiments, preferably, the number of the outlets 141 is plural, and the plural outlets 141 are uniformly arranged on the fixing portion 143; wherein the number of openings corresponds to the number of outlets 141.

In this embodiment, the number of the outlets 141 is plural, so that the material can flow out from the outlets 141, so that the material is quickly laid on the ground, the outlets 141 are uniformly arranged on the fixing portion 143, so that the material can be more uniformly laid on the ground, further, the number of the openings is the same as the number of the outlets 141, the openings and the outlets 141 are respectively arranged on the switch portion 144 and the fixing portion 143 at equal intervals, so that when the switch portion 144 opens the outlets 141, the outlets 141 are all correspondingly arranged and communicated with the openings, so that the inlets 140, the openings, and the outlets 141 are communicated, the material flows from the outlets 141 to the ground, when the switch portion 144 closes the outlets 141, the outlets 141 are not correspondingly arranged and communicated with the openings, so that the openings are closed, and the material stops flowing from the outlets 141 to the ground.

In any of the above embodiments, the opening is preferably the same size as the outlet 141.

In this embodiment, the size of the opening is the same as that of the outlet 141, and thus when the opening is arranged corresponding to the outlet 141, the material can rapidly flow out of the outlet 141.

In any of the above embodiments, preferably, the shape of the opening includes any of: round, square, trapezoidal.

In this embodiment, the shape of the opening includes any one of: round, square, trapezoidal, but other shapes can be designed.

Further, the opening and outlet 141 is a rectangular hole.

In any of the above embodiments, preferably, the number of the fixing portions 143 is two, the two fixing portions 143 are disposed in a vertical direction, and the switch portion 144 is sandwiched between the two fixing portions 143.

As shown in fig. 2, in this embodiment, the switch portion 144 is clamped between the two fixing portions 143, so as to realize the sliding connection between the switch portion 144 and the fixing portions 143. Further, the opening and closing portion 144 slides between the two fixing portions 143 in the arrangement direction of the plurality of openings.

In any of the above embodiments, preferably, the pulp spreading apparatus 1 further comprises: and the scraping plate 18 is connected with the material distributing device 14 and is positioned on one side of the material distributing device 14, which is far away from the storage hopper 12, and the scraping plate 18 is arranged corresponding to the outlet 141 and is used for leveling the material flowing out of the outlet 141.

In this embodiment, the powder device is provided with a scraper 18 for leveling the material flowing out from the outlet 141, the scraper 18 is disposed corresponding to the outlet 141, and after the material flows out from the outlet 141, the scraper 18 scrapes the material to level, so as to achieve the purpose of making the thickness of the material laid on the ground surface to be laid uniform and smoother.

In any of the above embodiments, the scraper 18 is preferably provided with teeth, and the teeth are uniformly provided on the scraper 18.

In this embodiment, the scraping plate 18 is provided with a tooth portion, the tooth portion is located at two ends of the scraping plate 18 in the vertical direction, the material can flow to the ground to be paved through the gap of the tooth portion, and the tooth portion is uniformly arranged on the scraping plate 18, so that the material paved on the ground to be paved is uniformly arranged.

In any of the above embodiments, preferably, the shape of the tooth portion includes any of: trapezoidal, square, triangular.

In this embodiment, the shape of the tooth portion includes any one of: trapezoidal, square, triangle-shaped to can scrape the material cross-section of corresponding shape on ground, lay the requirement with the material that satisfies different.

In any of the above embodiments, the scraper plate 18 is preferably slidably connected to the feed divider 14 in a vertical direction.

In this embodiment, the scraper plate 18 is slidably connected to the distributing device 14 in a vertical direction, so that the height of the scraper plate 18 can be adjusted, thereby realizing the laying of materials with different thicknesses.

In any of the above embodiments, preferably, the driving device 16 includes: the packing auger 160 is arranged outside the storage hopper 12 and corresponds to the discharge port 120; and the motor 162 is connected with the auger 160 and is used for driving the auger 160 to rotate so as to convey the materials to the material distribution device 14.

In this embodiment, as shown in fig. 1, the driving device 16 includes an auger 160 and a motor 162, the motor 162 drives the auger 160 to rotate so as to convey the material to the material distribution device 14, specifically, the auger 160 may be disposed in the storage hopper 12 or disposed outside the storage hopper 12, further, the auger 160 may be disposed in the storage hopper 12 along the vertical direction, the motor 162 is powered by an automatic guided transport vehicle, when the paving operation is performed, the motor 162 rotates forward to drive the auger 160 to rotate clockwise so as to convey the material to the material distribution hopper, and the paving operation is completed; when the paving operation is not performed, the motor 162 rotates reversely to drive the packing auger 160 to rotate anticlockwise to prevent the materials from being conveyed, and meanwhile, the materials in the storage hopper 12 are stirred. Of course, the auger 160 can also be arranged outside the storage hopper 12, and further, the auger 160 can be installed in an inclined manner or in a horizontal manner.

Further, the driving device 16 further includes a speed reducer connected to the motor 162 and a coupling for connecting the speed reducer to the packing auger 160. Further, the driving device 16 further comprises a bearing arranged between the packing auger 160 and the coupling.

In any of the above embodiments, preferably, the pulp spreading apparatus 1 further comprises: the moving device 10 is provided with a storage hopper 12 which is arranged on the moving device 10; and the control device is connected with the moving device 10 and the motor 162 and controls the thickness of the material laid on the ground to be laid by controlling the moving speed of the moving device 10 and the rotating speed of the motor 162.

In this embodiment, the slurry spreading device 1 further includes a moving device 10 and a control device, the moving device 10 drives the material separating device 14, the driving device 16 and the storage hopper 12 to move, so that the technical effect of automatic spreading and pasting is achieved; the control device is connected with the moving device 10 and the motor 162, the conveying speed of the materials can be controlled by controlling the rotating speed of the motor 162, and meanwhile, the moving speed of the moving device 10 and the rotating speed of the motor 162 can be controlled to control the thickness of the materials paved on the ground to be paved, namely, the moving speed of the moving device 10 is matched with the rotating speed of the motor 162, so that the slurry paving effects with different thicknesses can be obtained.

In any of the above embodiments, the moving device 10 is preferably an automated guided vehicle or a manual moving device.

In this embodiment, the moving device 10 may be an AGV (automatic guided vehicle), and the automatic guided vehicle may perform automatic navigation and automatic positioning to achieve an automatic paving effect, and of course, the moving device 10 may also be a hand-push type moving device.

Specifically, the mortar is pushed by the auger 160 to enter the material distribution device 14, under the action of the partition plates 142, the mortar entering the material distribution device 14 is finally and uniformly distributed at the position of the discharge port 120 of the material distribution device 14, and the partition plates 142 are uniformly arranged in the accommodating cavity of the material distribution device 14, so that the mortar can be uniformly distributed at the lower part of the accommodating cavity after entering from the inlet 140. The outlet 141 of the material distributing device 14 is provided with a linear reciprocating switch structure for controlling the start and stop of mortar laying, the linear reciprocating switch structure is composed of two fixed plates (fixed part 143) and a movable plate (switch part 144), the fixed plates are fixed with the main body of the material distributing device 14, the movable plate is clamped by the two fixed plates, rectangular holes are formed in the fixed plates and the movable plate at equal intervals, and the effect of opening and closing the outlet 141 in a linear reciprocating manner can be achieved by moving the movable plate in a reciprocating manner. The scraping plate 18 is installed on the outer side of the material distributing device 14, the tooth part of the scraping plate 18 is designed to be trapezoidal, rectangular or triangular, so that the section of the mortar with the corresponding shape can be scraped on the ground to meet the laying requirement of the mortar, wherein the height of the scraping plate 18 from the ground is adjustable, and therefore the laying of different mortar thicknesses is achieved.

In the present application, the term "plurality" means two or more unless expressly defined otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly and include, for example, fixed connections, detachable connections, or integral connections; "coupled" may be direct or indirect through an intermediary. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description of the present specification, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (14)

1. A pulp-spreading device (1), characterized in that it comprises:

the storage hopper (12), the storage hopper (12) is provided with a discharge hole (120);

a feed divider (14), said feed divider (14) having an inlet (140) and an outlet (141) in communication with said inlet (140), said inlet (140) being in communication with said discharge outlet (120), said outlet (141) being located below said inlet (140);

the driving device (16) is respectively connected with the storage hopper (12) and the material distribution device (14), the driving device is arranged corresponding to the discharge hole (120), and the driving device (16) can drive the material in the storage hopper (12) to enable the material to flow from the discharge hole (120) to the inlet (140);

at least one partition plate (142) is arranged in the material distribution device (14), and the partition plate (142) extends from the inlet (140) to the outlet (141) in the direction, so that the material is distributed by the inlet (140) through the partition plate (142) and then flows out of the outlet (141).

2. A grouting device (1) as claimed in claim 1,

the number of the separation plates (142) is at least two, and at least two separation plates (142) are uniformly arranged in the material distributing device (14).

3. A grouting device (1) as claimed in claim 1,

the number of the partition plates (142) is at least two, and the flow area of two adjacent partition plates (142) close to the center of the inlet (140) in the horizontal direction is smaller than that of two adjacent partition plates (142) far away from the center of the inlet (140).

4. A grouting device (1) as claimed in claim 2 or 3, characterised in that said distributing device (14) comprises:

a receiving cavity, the inlet (140) being located on the receiving cavity;

the fixing part (143) is connected with the accommodating cavity and positioned in the accommodating cavity, and the outlet (141) is positioned on the fixing part (143);

the switch part (144), switch part (144) with fixed part (143) sliding connection, slide switch part (144) can open or close export (141).

5. A grouting device (1) as claimed in claim 4,

the opening and closing part (144) is provided with an opening, and the opening is arranged corresponding to the outlet (141) when the outlet (141) is opened by the opening and closing part (144).

6. A grouting device (1) as claimed in claim 5,

the number of the outlets (141) is multiple, and the outlets (141) are uniformly arranged on the fixing part (143);

wherein the number of openings corresponds to the number of outlets (141).

7. A grouting device (1) as claimed in claim 6,

the opening is the same size as the outlet (141); and/or

The shape of the opening includes any one of: round, square, trapezoidal.

8. A grouting device (1) as claimed in claim 4,

the number of the fixing portions (143) is two, the two fixing portions (143) are arranged in a stacked mode in the vertical direction, and the switch portion (144) is clamped between the two fixing portions (143).

9. A grouting device (1) as claimed in claim 4, characterised in that it also comprises:

and the scraping plate (18) is connected with the material distributing device (14) and is positioned on one side of the material distributing device (14) departing from the storage hopper (12), and the scraping plate (18) is arranged corresponding to the outlet (141) and is used for flattening the material flowing out of the outlet (141).

10. A grouting device (1) as claimed in claim 9,

the scraping plates (18) are provided with tooth parts which are uniformly arranged on the scraping plates (18).

11. A grouting device (1) as claimed in claim 10,

the shape of the tooth portion includes any one of: trapezoidal, square, triangular; and/or

The scraping plate (18) is connected with the material distributing device (14) in a sliding mode along the vertical direction.

12. A grouting device (1) as claimed in claim 4, characterised in that said driving means (16) comprise:

the packing auger (160) is arranged outside the storage hopper (12) and corresponds to the discharge hole (120);

and the motor (162) is connected with the packing auger (160) and used for driving the packing auger (160) to rotate so as to convey materials to the material distribution device (14).

13. A grouting device (1) as claimed in claim 12, characterised in that it also comprises:

a mobile device (10), the storage hopper (12) being mounted on the mobile device (10);

and the control device is connected with the moving device (10) and the motor (162), and controls the thickness of the material paved on the ground to be paved by controlling the moving speed of the moving device (10) and the rotating speed of the motor (162).

14. A grouting device (1) as claimed in claim 13,

the moving device (10) is an automated guided vehicle or a manual moving device.