CN115571663A - Conveying equipment based on production of mortar dry powder glue retarder - Google Patents

Abstract

The invention discloses conveying equipment based on mortar dry powder adhesive retarder production, which comprises an engine body and a conveying frame positioned above the engine body, wherein the engine body is used for supporting the conveying frame, a cover plate capable of shielding the interior of the conveying frame is arranged on the inner side of the conveying frame, a hopper for feeding is arranged above the conveying frame, the hopper can be placed above the conveying frame in a sliding mode, a bulge capable of limiting the movement position of the hopper is arranged on the outer side of the conveying frame, a conveying part for conveying retarder is arranged on the inner side of the engine body, and the conveying part comprises: the conveying plate is located on the inner side of the conveying frame and is integrated with the conveying frame, a steel belt is arranged on the inner side of the conveying plate and is meshed with the conveying plate to limit the shape of the steel belt. When the retarder powder is conveyed, the retarder powder can be pushed to integrally move, the contact between the retarder powder and a rubber material in the conveying process is changed into the contact between the retarder powder and a steel material, and the adsorption residue of the retarder powder is reduced.

Description

Conveying equipment based on production of mortar dry powder glue retarder

Technical Field

The invention relates to the technical field of retarder production and conveying, in particular to conveying equipment based on mortar dry powder adhesive retarder production.

Background

The retarder is an additive which can reduce the hydration speed and the hydration heat of cement or gypsum and prolong the setting time. The retarder is added into commercial concrete for prolonging the hydration hardening time of cement, so that the fresh concrete can keep plasticity for a long time, thereby adjusting the setting time of the fresh concrete.

Most of organic retarders have strong activity on the surfaces of cement particles and new phases of hydration products, and are adsorbed on the surfaces of solid particles, so that the formation of cement and slurry structures is delayed. The inorganic retarder forms a layer of insoluble film on the surface of cement particles, and plays a barrier role in the hydration of the cement particles, so that the normal hydration of the cement is hindered, and therefore, the retarder has certain adsorption capacity and can be mixed with the cement.

In the retarder production process, carry out long distance's transport through the conveyer belt mostly, nevertheless because the retarder is likepowder, when carrying through the conveyer belt, the retarder of laminating with the conveyer belt surface can be adsorbed at the surface of conveyer belt, can lead to partly remaining of powder, secondly, in the powder is piled up the in-process of transportation, and the conveyer belt drives static powder and carries, leads to the easy condition that the caking appears of powder.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides conveying equipment based on mortar dry powder glue retarder production, and solves the current problems.

In order to realize the purpose, the invention is realized by the following technical scheme: the utility model provides a conveying equipment based on mortar dry powder glue retarder production, includes the organism and is located the defeated work or material rest of organism top position, wherein, the organism is in same as supporting defeated work or material rest, defeated work or material rest's inboard setting can be to the apron that defeated work or material rest inside sheltered from, defeated work or material rest's top position sets up the hopper that is used for the feeding, the hopper slidable is placed in defeated work or material rest's top, and the outside of defeated work or material rest has the arch that can restrict hopper motion position, the inboard setting of organism is used for carrying out the conveying portion that the retarder was carried, conveying portion includes:

the conveying plate is positioned on the inner side of the conveying frame and is integrated with the conveying frame, and a steel belt is arranged on the inner side of the conveying plate, wherein the steel belt is meshed with the conveying plate to limit the shape of the steel belt;

the pushing parts are arranged on the outer surface of the steel belt at uniform intervals and are in contact with the outer surface of the conveying plate, the pushing parts can move along with the steel belt, a vibration component which can be matched with the pushing parts is arranged below the pushing parts, and the vibration component can be arranged at the bottom of the conveying plate in a swinging mode;

the blanking assembly is arranged at the blanking position of the hopper, a connecting structure is arranged on the outer side of the blanking assembly, and synchronous motion among the hopper, the blanking assembly and the connecting structure can be formed by utilizing the connecting structure;

the driving assembly is arranged on the inner side of the machine body, is connected with the steel belt and can drive the steel belt to move in work.

Further, conveying part is still including being located the inboard arc arch of defeated work or material rest to and be located the inside extension spring of organism, the arc arch with defeated work or material rest be integrated into one piece, and the arc arch can extrude promotion portion and make promotion portion deformation when contacting with promotion portion, the both ends of extension spring respectively with hopper and organism inner wall fixed connection.

Furthermore, the hopper moves to stretch the tension spring, the hopper can be reset through the tension spring, and the pushing portion can be in contact with the connecting structure and drives the connecting structure to move.

Further, the pushing portion includes:

the mounting frame is fixed on the surface of the steel belt, and a scraper capable of contacting with the conveying plate is arranged below the mounting frame, wherein the scraper can push the powder on the outer surface of the conveying plate to move;

the connecting block is fixed on the inner side of the mounting frame and is in contact with the scraper plate, an electromagnet A is arranged inside the connecting block, and the electromagnet A is fixed inside the connecting block;

the pushing block is fixed on the outer surface of the connecting block, extends to the interior of the material conveying frame and can be contacted with the connecting structure;

the backplate is fixed in the mounting bracket surface, and the border position of backplate can contact with defeated work or material rest.

Furthermore, the bottom of the guard plate and the bottom of the scraper blade are located inside the same plane and are in contact with the outer surface of the conveying plate, the guard plate can be bent and deformed under the extrusion of the arc-shaped protrusions, a guide groove capable of containing a push block is formed in the inner side of the conveying frame, the guide groove is formed in the inner wall of the conveying frame, and the push block can move inside the guide groove.

Furthermore, a positioning groove is formed in the inner side of the steel belt and fixed in the steel belt, and balls which can be in contact with the conveying plate and assist the steel belt to move are arranged in the positioning groove and can rotate.

Further, the vibration assembly includes:

the connecting plate is movably connected with the conveying plate and can swing relative to the conveying plate;

and the electromagnet B is fixed at one end, close to the conveying plate, of the outer surface of the conveying plate, the other end of the electromagnet B is provided with a top block, and the top block is fixed on the outer surface of the connecting plate.

Furthermore, the electromagnet A and the electromagnet B generate repulsive force after being electrified, and the top block can collide with the conveying plate to vibrate the conveying plate.

Further, the connection structure includes:

a chute arranged inside the material conveying frame, and one end of the chute extending to the inner side of the material conveying frame is obliquely arranged

The moving frame is fixed on the outer surface of the hopper and extends into the chute, a supporting spring is arranged in the moving frame, and the supporting spring can enable the side wall of the moving frame to be in contact with the inner wall of the chute;

the connecting band is fixed on the outer surface of the hopper, the position of the connecting band can be changed in the movement process of the hopper, the connecting band is internally provided with a connecting gear and an engaging gear, and the engaging gear, the connecting gear and the connecting band are in meshing transmission.

Further, the unloading subassembly includes: the powder conveying device comprises an extrusion rod rotatably arranged in the material conveying frame and a flow distribution plate positioned above the extrusion rod and used for guiding powder, wherein the connecting gear and the meshing gear are sleeved on the outer surface of the extrusion rod.

Advantageous effects

The invention provides conveying equipment based on mortar dry powder glue retarder production. Compared with the prior art, the method has the following beneficial effects:

1. when the retarder powder is conveyed, the powder can be pushed to move integrally, the contact between the powder and a rubber material in the conveying process is changed into the contact between a steel material and the rubber material, the adsorption residue of the powder is reduced, the powder can continuously vibrate in the displacement process, and therefore the powder is in a movable state in the conveying process, the situation that the powder is caked in the movement process is reduced, and the conveying stability of the powder is further ensured.

2. According to the invention, through the hopper which can perform frequent reciprocating motion in the feeding process, the feeding position can be adjusted, powder can be spread in the adjusting process, the problem that the powder is easy to block in single position during feeding is avoided, and the powder can be extruded during feeding, so that the agglomerates in the powder can be crushed.

3. According to the invention, the conveying part capable of driving the powder to move in the conveying process is arranged, so that the position of the powder can be driven to change in the moving process, the powder positioned at the two side edges of the conveying plate can be collected inwards, the residue of the powder on the conveying belt is reduced, and the sprinkling range of the retarder in the discharging process can be reduced.

4. According to the invention, the vibrating component which can knock the conveying plate and vibrate the conveying plate in the using process so as to vibrate the powder above the conveying plate can be matched with the pushing part in the powder conveying process, so that the powder can be in an active state in the conveying process, and the caking of the powder is reduced.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a schematic view of the structure of the removal body of the present invention;

FIG. 3 is a schematic view of the cover plate removing structure according to the present invention;

FIG. 4 is a partial cross-sectional structural view of the present invention;

FIG. 5 is a side view of a partial structure of the present invention;

FIG. 6 is a side view of the hopper attachment structure of the present invention;

FIG. 7 is an exploded view of the extruded structure of the present invention;

FIG. 8 is a partial schematic view of a connection structure according to the present invention;

FIG. 9 is a schematic diagram of a conveyor plate structure according to the present invention;

FIG. 10 is a bottom view of the conveyor plate of the present invention;

FIG. 11 is a sectional view of a pushing portion of the present invention;

FIG. 12 is a schematic view of a push portion of the present invention;

FIG. 13 is a side view of the pushing portion of the present invention;

FIG. 14 is an enlarged view at A of the present invention;

FIG. 15 is an enlarged view of the invention at B;

FIG. 16 is an enlarged view of the invention at C.

In the figure: the device comprises a machine body, a material conveying frame, a cover plate, a material hopper, a driving component, a steel belt, a conveying plate, a 24 arc-shaped protrusion, a material discharging component, a 26 vibration component, a 27 connecting structure, a 28 tension spring, a29 pushing part, a 221 positioning groove, a 222 ball, a 251 shunting plate, a 252 extrusion rod, an 261 connecting plate, a 262 electromagnet B, a 263 top block, a 271 connecting gear, a 272 meshing gear, a 273 connecting belt, an 274 moving frame, a 275 sliding groove, a 276 supporting spring, a 291 mounting frame, a 292 scraping plate, a 293 protection plate, a 294 connecting block, a295 electromagnet A and a 296 pushing block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1 to 16, the conveying equipment based on mortar dry-mixed retarder production provided by the invention comprises an engine body 1 and a material conveying frame 2 located above the engine body 1, wherein the engine body 1 is used for supporting the material conveying frame 2, a cover plate 3 capable of shielding the interior of the material conveying frame 2 is arranged on the inner side of the material conveying frame 2, the cover plate 3 can be detached, after the cover plate 3 is detached, shielding on the inner side of the material conveying frame 2 can be opened, dust can directly fall into the material conveying frame 2, a hopper 4 for feeding is arranged above the material conveying frame 2, the hopper 4 can be slidably placed above the material conveying frame 2, a bulge capable of limiting the movement position of the hopper 4 is arranged on the outer side of the material conveying frame 2, the hopper 4 can linearly move in the movement process, and when the movement bulge is located, the hopper 4 can be blocked by the bulge to stop movement, so that the movement range of the hopper 4 can be controlled.

The inboard of organism 1 sets up the conveying part that is used for carrying on the retarder and carries, and conveying part includes:

the conveying plate 23 is positioned on the inner side of the material conveying frame 2 and is integrated with the material conveying frame 2, and a steel belt 22 is arranged on the inner side of the conveying plate 23, wherein the steel belt 22 is meshed with the conveying plate 23 to limit the shape of the steel belt 22;

in this embodiment, in order to reduce the powder remaining on the conveyor belt during the movement of the powder, the smooth outer surface of the conveyor plate 23 is provided to enable the powder to move on the conveyor plate 23 to reduce the powder remaining, in this embodiment, the conveyor plate 23 is a steel plate, in other embodiments, the conveyor plate 23 may also be a hard material such as glass or a plastic plate with a smooth outer surface, and the conveyor plate 23 is not specifically limited herein.

The steel belt 22 is formed by two parts, one part is a supporting belt made of elastic rubber positioned in the steel belt 22, the other part is a steel plate wrapped on the outer surface of the supporting belt, when powder falls off, the supporting belt falls on the outer surface of the steel plate, and when the powder moves, the supporting belt is in contact with the conveying plate 23 to reduce loss.

The pushing parts 29 are uniformly arranged on the outer surface of the steel belt 22 at intervals, the pushing parts 29 are in contact with the outer surface of the conveying plate 23, the pushing parts 29 can move along with the steel belt 22, the vibration component 26 capable of being matched with the pushing parts 29 is arranged below the pushing parts 29, and the vibration component 26 can be arranged at the bottom of the conveying plate 23 in a swinging mode;

the blanking assembly 25 is arranged at the blanking position of the hopper 4, a connecting structure 27 is arranged outside the blanking assembly 25, and the connecting structure 27 can be used for forming synchronous motion among the hopper 4, the blanking assembly 25 and the connecting structure 27;

and the driving assembly 21 is arranged on the inner side of the machine body 1, forms connection with the steel belt 22 and can drive the steel belt 22 to move in work.

Further, drive assembly 21 drives sprocket chain for the motor and forms the drive, aims at utilizing sprocket chain to form synchronous motion to make steel band 22 can be driven by drive assembly 21, and steel band 22 moves according to the direction of motion of chain, and in some embodiments, drive assembly 21 still can be for the motor drives the gear and can form the belt constitution of meshing with the gear, also can form the control to steel band 22.

Further, conveying part is still including being located conveying frame 2 inboard arc arch 24 to and being located the inside extension spring 28 of organism 1, arc arch 24 and conveying frame 2 be integrated into one piece, and arc arch 24 can extrude promotion portion 29 when contacting with promotion portion 29 and make promotion portion 29 deformation, the both ends of extension spring 28 respectively with hopper 4 and organism 1 inner wall fixed connection.

In this embodiment, the arc-shaped protrusions 24 are arranged at intervals, and when the pushing portion 29 passes through, the pushing portion 29 can be pressed by the arc-shaped protrusions to fold the pushing portion 29 inward, so that the powder inside can be controlled, and the powder residue at the corner position in the conveying process can be reduced.

Further, the hopper 4 moves to stretch the tension spring 28, the hopper 4 can be reset by the tension spring 28, and the pushing portion 29 can contact the connecting structure 27 and drive the connecting structure 27 to move.

In this embodiment, the tension spring 28 can be used to realize springback after the hopper 4 moves to a certain position, so that the hopper 4 can be reset and loses the support of the push block 296, and the hopper 4 can be reset quickly, thereby facilitating the next blanking.

In one embodiment, the pushing portion 29 includes:

a mounting rack 291 fixed on the surface of the steel belt 22, wherein a scraper 292 capable of contacting with the conveying plate 23 is arranged below the mounting rack 291, and the scraper 292 is capable of pushing the powder on the outer surface of the conveying plate 23 to move;

the connecting block 294 is fixed on the inner side of the mounting frame 291 and is contacted with the scraper 292, an electromagnet A295 is arranged inside the connecting block 294, and the electromagnet A295 is fixed inside the connecting block 294;

the push block 296 is fixed on the outer surface of the connecting block 294, the push block 296 extends into the conveying frame 2, and the push block 296 can contact with the connecting structure 27;

and a guard plate 293 fixed to the outer surface of the mounting frame 291, wherein the guard plate 293 has an edge capable of contacting the material conveying frame 2.

In this embodiment, the scraper 292 outside is the inclined plane setting, can be convenient for promote the powder and move, and when the powder moved, and the border position of backplate 293 can contact defeated work or material rest 2 to can draw in the powder of side in.

Further, backplate 293 bottom and scraper blade 292's bottom are located the coplanar inside, and all with the surface contact of delivery board 23, and backplate 293 can be under the protruding 24 extrusion of arc bending deformation, and the inboard of defeated material frame 2 has the guide slot that can hold ejector pad 296, and the guide slot is seted up in defeated material frame 2 inner walls, and ejector pad 296 can be at guide slot internal motion.

In this embodiment, the guard plate 293 is made of a steel sheet and can be bent after being pressed by the arc protrusion 24, so that the guard plate can be retracted inward at the position of the arc protrusion 24, and both sides of the mounting frame 291 do not contact with the arc protrusion 24, and the mounting frame 291 does not collide with the arc protrusion 24 during movement.

Further, the inside of the steel belt 22 has a positioning groove 221, the positioning groove 221 is fixed in the steel belt 22, the positioning groove 221 has a ball 222 inside capable of contacting the conveying plate 23 and assisting the movement of the steel belt 22, and the ball 222 can rotate.

The outer surfaces of the balls 222 can contact the transfer plate 23, so that friction between the steel belt 22 and the transfer plate 23 during movement can be reduced, and abrasion of the steel belt 22 during movement can be reduced.

In one embodiment, the shock assembly 26 includes:

a connecting plate 261 movably connected to the conveying plate 23, the connecting plate 261 being capable of swinging relative to the conveying plate 23;

the electromagnet B262 is fixed on one end, close to the conveying plate 23, of the outer surface of the conveying plate 23, a top block 263 is arranged on the other end of the electromagnet B262, and the top block 263 is fixed on the outer surface of the connecting plate 261.

In the embodiment, the middle part of the connecting plate 261 close to the electromagnet B262 is connected with the conveying plate 23, and the connecting plate 261 can swing so as to realize the impact on the conveying plate 23, the vibration assemblies 26 are symmetrical front and back, and are arranged in multiple groups, and can impact for multiple times in the movement process of the pushing part 29, so that the powder above the conveying plate 23 can vibrate for multiple times.

Further, the electromagnet a295 and the electromagnet B262 generate repulsive force after being energized, and the top block 263 can collide with the conveying plate 23 to vibrate the conveying plate 23.

In this embodiment, repulsive thrust can be generated between the electromagnet a295 and the electromagnet B262 to swing the connecting plate 261, and when the connecting plate 261 swings, the top block 263 can be made to strike the conveying plate 23, and the conveying plate 23 can vibrate after being struck, so that the powder on the surface of the conveying plate 23 vibrates up and down by vibration, thereby promoting the movement of the powder and reducing the caking of the powder.

In one embodiment, the connection structure 27 includes:

a chute 275 provided inside the material conveying frame 2, wherein one end of the chute 275 extending to the inner side of the material conveying frame 2 is obliquely provided

A moving frame 274 fixed to an outer surface of the hopper 4 and extending into the inside of the chute 275, a support spring 276 being provided inside the moving frame 274, the support spring 276 being capable of bringing a side wall of the moving frame 274 into contact with an inner wall of the chute 275;

and the connecting belt 273 is fixed on the outer surface of the hopper 4, the position of the connecting belt 273 can be changed in the moving process of the hopper 4, and the connecting belt 273 is internally provided with a connecting gear 271 and a meshing gear 272, wherein the meshing gear 272, the connecting gear 271 and the connecting belt 273 are in meshing transmission.

In this embodiment, the connection strap 273 and the moving frame 274 are connected with each other through the connection strap 273 and the moving frame 274, so that the connection strap 273 and the moving frame 274 can both move synchronously when the hopper 4 moves, the extrusion rod 252 rotates when the hopper 4 moves for blanking, so that synchronous extrusion crushing is performed, the pushing block 296 can push the moving frame 274 to move through the connection strap, when the hopper 4 moves to a certain position, the moving frame 274 can contract and extrude the supporting spring 276, so that the moving frame 274 is separated from the contact with the pushing block 296, and then the spring back is performed under the action of the tension spring 28.

In one embodiment, the blanking assembly 25 comprises: the extrusion rod 252 is rotatably installed inside the material conveying frame 2, the flow distribution plate 251 is located above the extrusion rod 252 for guiding the powder, and the connecting gear 271 and the engaging gear 272 are sleeved on the outer surface of the extrusion rod 252.

In this embodiment, by providing the flow distribution plate 251 whose middle portion protrudes upward to guide the powder, the powder can be conveyed to the gap position between the pressing rods 252 during the discharging process, so that the powder can be pressed by the rotation of the pressing rods 252 approaching each other.

The embodiment of the invention also provides a use method of the conveying equipment based on the production of the mortar dry powder glue retarder, which comprises the following steps:

when the powder is conveyed, the powder to be conveyed enters the hopper 4, the motor is started to drive the chain wheel to move, the chain is moved by the movement of the chain wheel, the steel belt 22 is driven to move, the pushing portion 29 outside the steel belt 22 can move along with the steel belt 22, meanwhile, the pushing block 296 can push the moving frame 274 to move, the moving frame 274 can be always in contact with the inner wall of the chute 275 under the supporting force of the supporting spring 276, the moving frame 274 drives the hopper 4 to move, the connecting belt 273 can be driven to change the position while the hopper 4 moves, so that the connecting gear 271 rotates, the connecting gear 271 can drive the meshing gear 272 to synchronously move when rotating, so that the extrusion rod 252 rotates, the powder can be extruded by the rotation of the extrusion rod 252, the powder is crushed and then falls on the conveying plate 23, the mounting frame 291 moves along with the steel belt 22, meanwhile, the scraper 292 is in structural contact with the conveying plate 23, so that the scraper pushes the powder to move, the scraper 293 gathers the powder at the side position of the conveying plate 23 inwards when passing through the arc-shaped protrusion 24, the guard 293 draws the powder inwards, thereby drawing the connecting block 262 moves towards the electromagnet 262, the electromagnet 262 and swings with the electromagnet 261 a and the electromagnet 263B, so that the electromagnet 23B swings, and the electromagnet 23B swing through the electromagnet 295.

The present invention relates to the prior art of both circuits and electronic components, and it is fully realized by those skilled in the art that the protection of the present invention does not involve any improvement to the internal structure or method, and it should be noted that the standard components used in the present invention can be purchased from the market, the special-shaped components can be customized according to the description of the specification and the attached drawings, the specific connection manner of each component adopts the conventional means of bolts, rivets, welding and the like, the conventional types of machines, components and devices are adopted in the prior art, and the inventor does not describe in detail herein.

And those not described in detail in this specification are well within the skill of those in the art.

It should be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a conveying equipment based on mortar dry powder glue retarder production, includes organism (1) and is located defeated material frame (2) of organism (1) top position, wherein, organism (1) is in the same as supporting defeated material frame (2), the inboard setting of defeated material frame (2) can be to defeated material frame (2) inside apron (3) that shelter from, the top position of defeated material frame (2) sets up hopper (4) that are used for the feeding, its characterized in that: hopper (4) slidable places in the top of defeated work or material rest (2), and the outside of defeated work or material rest (2) has the arch that can restrict hopper (4) motion position, the inboard setting of organism (1) is used for carrying out the conveying portion that the retarder was carried, conveying portion includes:

the conveying plate (23) is positioned on the inner side of the material conveying frame (2) and is integrated with the material conveying frame (2), a steel belt (22) is arranged on the inner side of the conveying plate (23), and the steel belt (22) is meshed with the conveying plate (23) to limit the shape of the steel belt (22);

the pushing parts (29) are uniformly arranged on the outer surface of the steel strip (22) at intervals, the pushing parts (29) are in contact with the outer surface of the conveying plate (23), the pushing parts (29) can move along with the steel strip (22), a vibration assembly (26) capable of being matched with the pushing parts (29) is arranged below the pushing parts (29), and the vibration assembly (26) can be arranged at the bottom of the conveying plate (23) in a swinging mode;

the blanking assembly (25) is arranged at the blanking position of the hopper (4), a connecting structure (27) is arranged on the outer side of the blanking assembly (25), and synchronous motion among the hopper (4), the blanking assembly (25) and the connecting structure (27) can be formed by utilizing the connecting structure (27);

the driving assembly (21) is arranged on the inner side of the machine body (1), is connected with the steel belt (22), and can drive the steel belt (22) to move in work.

2. The conveying equipment based on mortar dry powder glue retarder production of claim 1 is characterized in that: conveying part is still including arc arch (24) that are located defeated work or material rest (2) inboard to and be located inside extension spring (28) of organism (1), arc arch (24) and defeated work or material rest (2) be integrated into one piece, and arc arch (24) can extrude promotion portion (29) and make promotion portion (29) deformation when contacting with promotion portion (29), the both ends of extension spring (28) respectively with hopper (4) and organism (1) inner wall fixed connection.

3. The conveying equipment based on mortar dry powder glue retarder production of claim 2 is characterized in that: hopper (4) remove can tensile extension spring (28), can make hopper (4) restore to the throne through extension spring (28), promotion portion (29) can contact and drive connection structure (27) motion with connection structure (27).

4. The conveying equipment based on mortar dry powder glue retarder production of claim 2 is characterized in that: the pushing portion (29) includes:

the mounting rack (291) is fixed on the surface of the steel belt (22), and a scraper (292) capable of contacting with the conveying plate (23) is arranged below the mounting rack (291), wherein the scraper (292) can push the powder on the outer surface of the conveying plate (23) to move;

the connecting block (294) is fixed on the inner side of the mounting frame (291) and is contacted with the scraper (292), an electromagnet A (295) is arranged in the connecting block (294), and the electromagnet A (295) is fixed in the connecting block (294);

the pushing block (296) is fixed on the outer surface of the connecting block (294), the pushing block (296) extends to the interior of the material conveying frame (2), and the pushing block (296) can be in contact with the connecting structure (27);

the guard plate (293) is fixed on the outer surface of the mounting frame (291), and the edge position of the guard plate (293) can be contacted with the material conveying frame (2).

5. The conveying equipment based on mortar dry powder glue retarder production of claim 4 is characterized in that: the utility model discloses a conveying device, including backplate (293), scraper blade (292), conveying frame (2), guide slot, push block (296), backplate (293) bottom and scraper blade (292) bottom are located the coplanar inside, and all with conveying plate (23) surface contact, backplate (293) can be under the extrusion of arc arch (24) bending deformation, the inboard of conveying frame (2) has the guide slot that can hold push block (296), and the guide slot is seted up in conveying frame (2) inner wall, push block (296) can be at guide slot internal motion.

6. The conveying equipment based on mortar dry powder glue retarder production of claim 1 is characterized in that: the inner side of the steel belt (22) is provided with a positioning groove (221), the positioning groove (221) is fixed in the steel belt (22), balls (222) which can contact with the conveying plate (23) and assist the movement of the steel belt (22) are arranged in the positioning groove (221), and the balls (222) can rotate.

7. The conveying equipment based on mortar dry powder glue retarder production of claim 4 is characterized in that: the shock assembly (26) includes:

a connecting plate (261) movably connected with the conveying plate (23), wherein the connecting plate (261) can swing relative to the conveying plate (23);

and the electromagnet B (262) is fixed at one end, close to the conveying plate (23), of the outer surface of the conveying plate (23), the other end of the electromagnet B (262) is provided with a top block (263), and the top block (263) is fixed on the outer surface of the connecting plate (261).

8. The conveying equipment based on mortar dry powder glue retarder production of claim 7 is characterized in that: the electromagnet A (295) and the electromagnet B (262) generate repulsive force after being electrified, and the top block (263) can collide with the conveying plate (23) to vibrate the conveying plate (23).

9. The conveying equipment based on mortar dry powder glue retarder production of claim 7 is characterized in that: the connection structure (27) includes:

a chute (275) arranged inside the material conveying frame (2), wherein one end of the chute (275) extending to the inner side of the material conveying frame (2) is obliquely arranged

The moving frame (274) is fixed on the outer surface of the hopper (4) and extends into the sliding groove (275), a supporting spring (276) is arranged inside the moving frame (274), and the supporting spring (276) can enable the side wall of the moving frame (274) to be in contact with the inner wall of the sliding groove (275);

the connecting belt (273) is fixed on the outer surface of the hopper (4), the position of the connecting belt (273) can be changed in the moving process of the hopper (4), a connecting gear (271) and a meshing gear (272) are arranged inside the connecting belt (273), and meshing transmission is carried out among the meshing gear (272), the connecting gear (271) and the connecting belt (273).

10. The conveying equipment based on mortar dry powder glue retarder production of claim 9 is characterized in that: the blanking assembly (25) comprises: the powder guiding device comprises an extrusion rod (252) rotatably arranged in the material conveying frame (2) and a flow distribution plate (251) located above the extrusion rod (252) and used for guiding powder, wherein the connecting gear (271) and the meshing gear (272) are sleeved on the outer surface of the extrusion rod (252).

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