CN210616943U - A energy-saving loading attachment for concrete production - Google Patents

Abstract

The utility model discloses an energy-saving loading attachment for concrete production, belong to building material production facility field, an energy-saving loading attachment for concrete production, the discharge end of cylinder transmission group and the feed end looks adaptation of horizontal belt transmission group, the discharge end of horizontal belt transmission group and the feed end looks adaptation of promotion belt transmission group, the power take off end that promotes belt drive mechanism passes the power input end fixed connection that removes frame and V style of calligraphy promotion belt mechanism, the discharge end of horizontal belt transmission group and the feed end looks adaptation of V style of calligraphy promotion belt mechanism, V style of calligraphy promotion belt mechanism's belt upper end is personally submitted V style of calligraphy structure. The utility model discloses an energy-saving loading attachment for concrete production adopts V style of calligraphy area transmission structure, and the belt transmission of planar structure compares, can effectively reduce the raw materials problem of spilling, reduces because of spilling the wasting of resources that the material caused, improves energy utilization to reduce energy loss, the energy can be saved.

Description

A energy-saving loading attachment for concrete production

Technical Field

The utility model relates to a building material production facility field especially relates to an energy-saving loading attachment for concrete production.

Background

Chinese patent document publication No. CN207580741U discloses a concrete loading attachment, including the backup pad, the left side fixedly connected with supporting leg of backup pad bottom, the left side fixed mounting at backup pad top has motor one, the output fixedly connected with belt pulley one of motor one, the right side at backup pad top is provided with the mounting panel, there is belt pulley two at the top on mounting panel obverse surface through bearing swing joint, belt pulley one passes through the conveyer belt transmission with belt pulley two and is connected. The utility model discloses a set up the cooperation of dead lever, regulating box, through-hole, lifter, sleeve, connecting rod, connecting seat one, motor two, belt pulley three, column spinner, belt pulley four, belt, carousel, movable block, carriage release lever, movable groove, connecting seat two and connecting rod, can make the conveyer belt reciprocate, reached the height that can adjust the material loading machine, convenient to use's effect. However, when the concrete feeding device is used for conveying concrete, the problem of concrete pouring is easy to occur, resource waste is caused, and the energy utilization rate is low.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to solve the technical problem that an energy-saving loading attachment for concrete production is proposed, adopts V style of calligraphy area transmission structure, and compared planar structure's belt transmission, can effectively reduce the raw materials and spill the problem, reduce the wasting of resources because of spilling the material and leading to the fact, improve energy utilization to reduce energy loss, the energy can be saved.

To achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides a pair of energy-saving loading attachment for concrete production, including cylinder transmission group, horizontal belt transmission group and promotion belt transmission group, the discharge end of cylinder transmission group and the feed end looks adaptation of horizontal belt transmission group, the discharge end of horizontal belt transmission group and the feed end looks adaptation of promotion belt transmission group, it promotes belt mechanism including the V style of calligraphy to promote belt transmission group, promote belt actuating mechanism and moving frame, the power take off end who promotes belt actuating mechanism passes the power input end fixed connection who removes frame and V style of calligraphy promotion belt mechanism, the discharge end of horizontal belt transmission group and the feed end looks adaptation of V style of calligraphy promotion belt mechanism, V style of calligraphy promotion belt mechanism's belt upper end is V style of calligraphy structure.

The utility model has the preferable technical proposal that the V-shaped lifting belt mechanism comprises a lifting belt and a driving roller shaft group, the V-shaped transmission roller shaft type lifting belt comprises a driven roller shaft group, a plurality of V-shaped transmission roller shaft groups and a plurality of flat transmission roller shaft groups, wherein the discharge end of a lifting belt is sleeved on a driving roller shaft group, the feed end of the lifting belt is sleeved on the driven roller shaft group, the power output end of a lifting belt driving mechanism penetrates through a movable rack and is fixedly connected with the power input end of the driving roller shaft group, the support ends of the V-shaped transmission roller shaft groups are respectively fixed on the movable rack, the roller shaft ends of the V-shaped transmission roller shaft groups are respectively attached to the upper end face of the lifting belt, the support ends of the flat transmission roller shaft groups are respectively fixed on the movable rack, the roller shaft ends of the flat transmission roller shaft groups are respectively attached to the lower end face of the lifting belt, the upper end of the lifting belt is of a V-shaped structure, and the discharge end of the horizontal belt transmission group is matched with.

The utility model discloses preferred technical scheme lies in, V style of calligraphy driving roller group includes oblique roller shaft bracket, first oblique roller shaft and second oblique roller shaft, one end of first oblique roller shaft and a side end rotatable coupling of oblique roller shaft bracket, the other end of first oblique roller shaft and the middle part rotatable coupling of oblique roller shaft bracket, the one end of second oblique roller shaft and the opposite side tip rotatable coupling of oblique roller shaft bracket, the other end of first oblique roller shaft and the middle part rotatable coupling of oblique roller shaft bracket, first oblique roller shaft is V style of calligraphy symmetric distribution with the second oblique roller shaft, the axial plane of first oblique roller shaft and the axial plane of second oblique roller shaft laminate with the up end that promotes the belt respectively mutually.

The utility model has the preferable technical proposal that the oblique roller shaft bracket comprises a horizontal bracket, an n-shaped connecting piece, a first connecting piece and a second connecting piece, one end of the horizontal bracket is fixedly connected with one end of the first connecting piece, the other end of the horizontal bracket is fixedly connected with one end of the second connecting piece, the n-shaped connecting piece is fixed at the middle part of the horizontal bracket, the horizontal bracket is fixed on the movable frame, one end of the first oblique roller shaft is rotatably connected with one end of the first connecting piece, the other end of the first oblique roller shaft is rotatably connected with one end of the n-shaped connecting piece, one end of the second oblique roller shaft is rotatably connected with one end of the second connecting piece, the other end of the second oblique roller shaft is rotatably connected with the other end of the n-shaped connecting piece, the first connecting piece and the second, and the height of the first connecting piece and the height of the second connecting piece are both higher than the height of the n-shaped connecting piece.

The utility model discloses preferred technical scheme lies in, flat transmission roller axle group includes plain-barreled roll shaft support and plain-barreled roll axle, the both ends of plain-barreled roll axle respectively with plain-barreled roll shaft support's both sides salient angle end rotatable coupling, plain-barreled roll shaft support fixes in moving the frame.

The utility model discloses preferred technical scheme lies in, promotes belt drive mechanism and includes promotion belt servo motor and promotion belt chain drive, promotes belt servo motor's power take off end and promotion belt chain drive's power input end fixed connection, and promotion belt chain drive's power take off end passes the power input end fixed connection who removes frame and initiative roller group, promotes belt servo motor and fixes in removing the frame.

The utility model discloses preferred technical scheme lies in, and the bottom of moving the frame is fixed with the universal wheel.

The utility model discloses preferred technical scheme lies in, horizontal belt transmission group includes the horizontal belt mechanism of V style of calligraphy, horizontal belt actuating mechanism and horizontal frame, horizontal belt actuating mechanism's power output end passes horizontal frame and the horizontal belt mechanism's of V style of calligraphy power input end fixed connection, the discharge end of the horizontal belt mechanism of V style of calligraphy and the feed end looks adaptation of V style of calligraphy promotion belt mechanism, V style of calligraphy structure is personally submitted to the horizontal belt mechanism's of V style of calligraphy belt upper end, horizontal frame is fixed and is served at the frame of cylinder transmission group.

The utility model discloses preferred technical scheme lies in, cylinder transmission group is including rolling mechanism, rolling group actuating mechanism and rolling group frame, and the power take off end of rolling group actuating mechanism and rolling mechanism's power input end fixed connection, rolling group actuating mechanism fix in rolling group frame, and the discharge end of rolling mechanism and the feed end looks adaptation of horizontal belt transmission group.

The utility model discloses preferred technical scheme lies in, rolling mechanism includes the cylinder, the driving roller group, driven roller group and ring rail, ring rail fixes the tip at the cylinder, the gyro wheel end of driving roller group is followed ring rail and is done the roll, the support end of driving roller group is fixed in the rolling group frame, the power take off end of rolling group actuating mechanism and the power input end fixed connection of driving roller group, the gyro wheel end of driven roller group is followed ring rail and is done the roll, the support end of driven roller group is fixed in the rolling group frame, the discharge end of cylinder and the feed end looks adaptation of horizontal belt transmission group.

The utility model has the advantages that:

the utility model provides an energy-saving loading attachment for concrete production, including cylinder transmission group, horizontal belt transmission group and promotion belt transmission group, the discharge end of cylinder transmission group and the feed end looks adaptation of horizontal belt transmission group, the discharge end of horizontal belt transmission group and the feed end looks adaptation of promotion belt transmission group promote belt transmission group and include V style of calligraphy promotion belt mechanism, promotion belt actuating mechanism and moving frame. The lifting belt driving mechanism can drive the V-shaped lifting belt mechanism to carry out belt transmission, and the movable rack conveniently drives the V-shaped lifting belt mechanism and the lifting belt driving mechanism to move. Horizontal belt transmission group and V style of calligraphy promotion belt mechanism adopt belt drive, and transmission process is more steady to reduce raise dust and noise pollution, environmental protection more, and V style of calligraphy promotion belt mechanism adopts V style of calligraphy area transmission structure, and the belt transmission of planar structure compares, can effectively reduce the raw materials problem of spilling, reduces because of spilling the wasting of resources that the material caused, improves energy utilization, thereby reduces energy loss, the energy can be saved.

Drawings

Fig. 1 is an isometric view of the overall structure of an energy-saving type feeding device for concrete production provided in a specific embodiment of the present invention;

FIG. 2 is an enlarged view of the structure of the energy-saving type charging apparatus for concrete production of section A of FIG. 1;

FIG. 3 is an enlarged view of the structure of the energy-saving type charging apparatus for concrete production of section B of FIG. 1;

FIG. 4 is an enlarged view of the structure of the energy-saving type charging apparatus for concrete production of section C of FIG. 1;

FIG. 5 is a front view of the energy-saving feeding device for concrete production according to the embodiment of the present invention;

FIG. 6 is a sectional view of the structure of the energy-saving type charging apparatus for concrete production in the direction H-H in FIG. 5;

fig. 7 is an enlarged view of the structure of the energy-saving type charging device for concrete production of section D in fig. 6.

In the figure:

1. a roller conveying group; 11. a rolling mechanism; 111. a drum; 112. a driving roller group; 113. a driven roller set; 114. an annular guide rail; 12. a rolling group drive mechanism; 13. rolling the group frame; 2. a horizontal belt transmission group; 21. a V-shaped horizontal belt mechanism; 22. a horizontal belt drive mechanism; 23. a horizontal frame; 3. Lifting the belt transmission set; 31. a V-shaped lifting belt mechanism; 311. lifting the belt; 312. a driving roller shaft group; 313. a driven roller shaft group; 314. a V-shaped transmission roller shaft group; 3141. a skew roller shaft support; 31411. a horizontal support; 31412. an n-shaped connecting piece; 31413. a first connecting member; 31414. a second connecting member; 3142. A first skew roller shaft; 3143. a second skew roller shaft; 315. a flat transmission roller shaft group; 3151. a flat roll shaft support; 3152. a flat roller shaft; 32. a lifting belt drive mechanism; 321. a belt lifting servo motor; 322. a lifting belt chain transmission device; 33. moving the frame; 4. a universal wheel.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

As shown in fig. 1 to 7, the energy-saving feeding device for concrete production provided in this embodiment includes a roller transmission set 1, a horizontal belt transmission set 2 and a lifting belt transmission set 3, a discharge end of the roller transmission set 1 is matched with a feed end of the horizontal belt transmission set 2, a discharge end of the horizontal belt transmission set 2 is matched with a feed end of the lifting belt transmission set 3, the lifting belt transmission set 3 includes a V-shaped lifting belt mechanism 31, a lifting belt driving mechanism 32 and a moving frame 33, a power output end of the lifting belt driving mechanism 32 passes through the moving frame 33 and is fixedly connected with a power input end of the V-shaped lifting belt mechanism 31, a discharge end of the horizontal belt transmission set 2 is matched with a feed end of the V-shaped lifting belt mechanism 31, and an upper belt end face of the V-shaped lifting belt mechanism 31 is of a V-shaped structure. In order to use energy-saving loading attachment for concrete production when transporting concrete raw materials, the transportation is more steady, effectively reduces the raw materials problem of spilling, improves energy utilization and rates, avoids the wasting of resources, the energy can be saved. Further, the concrete raw materials are firstly preliminarily mixed in the roller transmission group 1, then transmitted to the horizontal belt transmission group 2, then transmitted to the V-shaped lifting belt mechanism 31, and finally transmitted to the corresponding concrete stirring device for mixing and stirring. Wherein, promote belt drive mechanism 32 and can drive V style of calligraphy and promote belt mechanism 31 and carry out the belt drive, remove the frame 33 and conveniently drive V style of calligraphy and promote belt drive mechanism 31 and promote belt drive mechanism 32 and remove. Horizontal belt transmission group 2 and V style of calligraphy promote belt mechanism 31 and adopt belt drive, and transmission process is more steady to reduce raise dust and noise pollution, environmental protection more, and V style of calligraphy promote belt mechanism 31 and adopt V style of calligraphy area transmission structure, compare planar structure's belt transmission, can effectively reduce the raw materials problem of spilling, reduce the wasting of resources because of spilling the material and causing, improve energy utilization, thereby reduce energy loss, the energy can be saved.

In order to make V style of calligraphy lifting belt mechanism 31 can effectively reduce the raw materials problem of spilling. Further, the V-shaped lifting belt mechanism 31 includes a lifting belt 311, a driving roller set 312, a driven roller set 313, a plurality of V-shaped transmission roller sets 314 and a plurality of flat transmission roller sets 315, a discharge end of the lifting belt 311 is sleeved on the driving roller set 312, a feed end of the lifting belt 311 is sleeved on the driven roller set 313, a power output end of the lifting belt driving mechanism 32 passes through the movable frame 33 and is fixedly connected with a power input end of the driving roller set 312, support ends of the plurality of V-shaped transmission roller sets 314 are respectively fixed on the movable frame 33, roller shaft ends of the plurality of V-shaped transmission roller sets 314 are respectively attached to an upper end face of the lifting belt 311, support ends of the plurality of flat transmission roller sets 315 are respectively fixed on the movable frame 33, roller shaft ends of the plurality of flat transmission roller sets 315 are respectively attached to a lower end face of the lifting belt 311, an upper end face of the lifting belt 311 is in a V-shaped structure, the discharge end of the horizontal belt transmission group 2 is matched with the feed end of the lifting belt 311. The lifting belt driving mechanism 32 rotates to drive the driving roller set 312 to rotate and drive the lifting belt 311 to move, so as to respectively drive the driven roller set 313, the plurality of V-shaped transmission roller sets 314 and the plurality of flat transmission roller sets 315 to rotate, and through the above process, the V-shaped lifting belt mechanism 31 realizes belt transmission. Wherein, through setting up a plurality of V style of calligraphy driving roller group 314, make the up end that promotes belt 311 personally submit V style of calligraphy structure, relative planar structure's belt transmission, can effectively reduce the raw materials and spill the problem, reduce the wasting of resources because of spilling the material and causing, energy utilization is high to reduce energy loss, the energy can be saved.

In order to realize V-shaped belt transmission by the V-shaped transmission roller shaft group 314. Further, the V-shaped driving roller group 314 includes an oblique roller shaft support 3141, a first oblique roller shaft 3142 and a second oblique roller shaft 3143, one end of the first oblique roller shaft 3142 is rotatably connected to one side end of the oblique roller shaft support 3141, the other end of the first oblique roller shaft 3142 is rotatably connected to the middle of the oblique roller shaft support 3141, one end of the second oblique roller shaft 3143 is rotatably connected to the other side end of the oblique roller shaft support 3141, the other end of the first oblique roller shaft 3142 is rotatably connected to the middle of the oblique roller shaft support 3141, the first oblique roller shaft 3142 and the second oblique roller shaft 3143 are symmetrically distributed in a V-shape, and the axial surface of the first oblique roller shaft 3142 and the axial surface of the second oblique roller shaft 3143 are respectively attached to the upper end surface of the lifting belt 311. The oblique roller support 3141 is used for mounting the first oblique roller 3142 and the second oblique roller 3143 to play a supporting role, the first oblique roller 3142 and the second oblique roller 3143 are symmetrically distributed in a V shape, and the axial surfaces of the first oblique roller 3142 and the second oblique roller 3143 are respectively attached to the upper end surface of the lifting belt 311, so that the V-shaped transmission roller group 314 can realize V-shaped belt transmission.

In order to realize V-shaped symmetrical distribution of the first oblique roller 3142 and the second oblique roller 3143, V-shaped belt transmission is realized. Further, the oblique roller shaft support 3141 includes a horizontal support 31411, an n-shaped connection member 31412, a first connection member 31413, and a second connection member 31414, one end of the horizontal support 31411 is fixedly connected with one end of the first connection member 31413, the other end of the horizontal support 31411 is fixedly connected with one end of the second connection member 31414, the n-shaped connection member 31412 is fixed in the middle of the horizontal support 31411, the horizontal support 31411 is fixed on the moving frame 33, one end of the first oblique roller shaft 3142 is rotatably connected with one end of the first connection member 31413, the other end of the first oblique roller shaft 3142 is rotatably connected with one end of the n-shaped connection member 31412, one end of the second oblique roller shaft 3143 is rotatably connected with one end of the second connection member 31414, the other end of the second oblique roller shaft 3143 is rotatably connected with the other end of the n-shaped connection member 31412, the first connection member 31413 and the second connection member 31414 are in equal height, and the height of the first connection member 31413 and the height of the second connection member 31414 are both higher than the height of the n-shaped connection member 31412. The first connecting piece 31413 and the second connecting piece which are symmetrically distributed at the same height are arranged, the n-shaped connecting piece 31412 arranged in the middle of the horizontal support 31411 is combined, and the height of the first connecting piece 31413 and the height of the second connecting piece 31414 are both higher than the height of the n-shaped connecting piece 31412, so that the first oblique roller shaft 3142 and the second oblique roller shaft 3143 are symmetrically distributed in a V shape after being assembled, and V-shaped belt transmission is realized.

In order to achieve flat drive for the flat drive roller shaft group 315. Further, the flat driving roller shaft group 315 includes a flat roller shaft support 3151 and a flat roller shaft 3152, both ends of the flat roller shaft 3152 are rotatably connected to both side lobe ends of the flat roller shaft support 3151, respectively, and the flat roller shaft support 3151 is fixed to the moving frame 33. The flat roller shaft support 3151 is used for mounting the flat roller shaft 3152 to play a supporting role, and drives the flat roller shaft 3152 to rotate when the lifting belt 311 is driven, so that the belt driving process of the lifting belt 311 is more stable through the conduction function of the flat roller shaft 3152, and the flat driving roller shaft group 315 realizes flat driving through the process.

In order to make the lifting belt driving mechanism 32 adapt to the severe working environment with more dust, and have higher bearing capacity and transmission efficiency. Further, the lifting belt driving mechanism 32 includes a lifting belt servo motor 321 and a lifting belt chain transmission device 322, a power output end of the lifting belt servo motor 321 is fixedly connected with a power input end of the lifting belt chain transmission device 322, a power output end of the lifting belt chain transmission device 322 passes through the movable frame 33 to be fixedly connected with a power input end of the driving roller shaft group 312, and the lifting belt servo motor 321 is fixed on the movable frame 33. The power output end of the lifting belt servo motor 321 rotates to drive the power input end of the lifting belt chain transmission device 322 to rotate, the power input end of the lifting belt chain transmission device 322 drives the power output end of the lifting belt chain transmission device 322 to rotate through chain transmission, and then the power input end of the driving roller shaft group 312 is driven to rotate, so that the V-shaped lifting belt mechanism 31 realizes belt transmission. The lifting belt chain transmission device 322 is suitable for severe working environments with more raised dust, and has high bearing capacity and high transmission efficiency.

In order to facilitate the turning movement of the movable frame 33. Further, universal wheels 4 are fixed to the bottom of the moving frame 33. The universal wheels 4 are arranged, so that the movable frame 33 is convenient to steer and move.

In order to effectively reduce the problem of raw material pouring when the horizontal belt conveying group 2 is used for conveying concrete raw materials, the energy utilization rate is improved, the resource waste is avoided, and the energy is saved. Further, horizontal belt transmission group 2 includes V style of calligraphy horizontal belt mechanism 21, horizontal belt actuating mechanism 22 and horizontal frame 23, horizontal belt actuating mechanism 22's power take off end passes horizontal frame 23 and V style of calligraphy horizontal belt mechanism 21's power take off end fixed connection, V style of calligraphy horizontal belt mechanism 21's discharge end and V style of calligraphy promote the feed end looks adaptation of belt mechanism 31, V style of calligraphy horizontal belt mechanism 21's belt upper end is the V style of calligraphy structure, horizontal frame 23 is fixed on cylinder transmission group 1's frame end. The concrete raw materials are firstly preliminarily mixed in the roller transmission set 1, then transmitted to the V-shaped horizontal belt mechanism 21, then transmitted to the V-shaped lifting belt mechanism 31, and finally transmitted to the corresponding concrete stirring device for mixing and stirring. The horizontal belt driving mechanism 22 can drive the V-shaped horizontal belt mechanism 21 to perform belt transmission, and the horizontal frame 23 is used for mounting the V-shaped horizontal belt mechanism 21 and the horizontal belt driving mechanism 22 to perform a supporting function. V style of calligraphy horizontal belt mechanism 21 adopts belt drive, and transmission process is more steady to reduce raise dust and noise pollution, environmental protection more, and V style of calligraphy horizontal belt mechanism 21 adopts V style of calligraphy area transmission structure, and the belt transmission of planar structure compares, can effectively reduce the raw materials problem of spilling, reduces because of spilling the wasting of resources that the material caused, improves energy utilization, thereby reduces energy loss, the energy can be saved.

The concrete raw materials may be preliminarily mixed in order for the drum transfer set 1. Further, the roller transmission set 1 comprises a rolling mechanism 11, a rolling set driving mechanism 12 and a rolling set frame 13, wherein a power output end of the rolling set driving mechanism 12 is fixedly connected with a power input end of the rolling mechanism 11, the rolling set driving mechanism 12 is fixed on the rolling set frame 13, and a discharge end of the rolling mechanism 11 is matched with a feed end of the horizontal belt transmission set 2. The rolling group frame 13 is used for mounting the rolling mechanism 11 and the rolling group driving mechanism 12 and plays a supporting role. The power output end of the rolling group driving mechanism 12 rotates to drive the power input end of the rolling mechanism 11 to rotate, so that the rolling mechanism 11 can perform preliminary mixing on the concrete raw materials. Through the above process, the drum conveying group 1 can preliminarily mix the concrete raw materials.

In order to allow the rolling mechanism 11 to perform preliminary mixing of the concrete raw material by rolling. Further, the rolling mechanism 11 includes a roller 111, a driving roller set 112, a driven roller set 113 and a circular guide rail 114, the circular guide rail 114 is fixed at an end of the roller 111, a roller end of the driving roller set 112 rolls along the circular guide rail 114, a support end of the driving roller set 112 is fixed on the rolling set frame 13, a power output end of the rolling set driving mechanism 12 is fixedly connected with a power input end of the driving roller set 112, a roller end of the driven roller set 113 rolls along the circular guide rail 114, a support end of the driven roller set 113 is fixed on the rolling set frame 13, and a discharge end of the roller 111 is matched with a feed end of the horizontal belt transmission set 2. The power output end of the rolling group driving mechanism 12 rotates to drive the power input end of the driving roller group 112 to rotate, so as to drive the roller end of the driving roller group 112 to roll along the annular guide rail 114, drive the roller 111 to roll, and drive the roller end of the driven roller group 113 to roll along the annular guide rail 114. The driving roller set 112 is a power input end and performs a power conversion input function, and the driven roller set 113 is a driven end and performs a conduction movement function, so that the rolling process of the roller 111 is more stable. Through the above process, the rolling mechanism 11 can perform preliminary mixing of the concrete raw materials by rolling.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. The present invention is not to be limited by the specific embodiments disclosed herein, and other embodiments that fall within the scope of the claims of the present application are intended to be within the scope of the present invention.

Claims (10)

1. The utility model provides an energy-saving loading attachment for concrete production, includes that cylinder transmission group (1), horizontal belt transmission group (2) and promotion belt transmission group (3), the discharge end of cylinder transmission group (1) with the feeding end looks adaptation of horizontal belt transmission group (2), the discharge end of horizontal belt transmission group (2) with the feeding end looks adaptation of promotion belt transmission group (3), its characterized in that:

the lifting belt transmission group (3) comprises a V-shaped lifting belt mechanism (31), a lifting belt driving mechanism (32) and a movable rack (33);

the power output end of the lifting belt driving mechanism (32) penetrates through the movable rack (33) to be fixedly connected with the power input end of the V-shaped lifting belt mechanism (31);

the discharge end of the horizontal belt transmission group (2) is matched with the feed end of the V-shaped lifting belt mechanism (31);

the upper end surface of the belt of the V-shaped lifting belt mechanism (31) is of a V-shaped structure.

2. The energy-saving feeding device for concrete production according to claim 1, characterized in that:

the V-shaped lifting belt mechanism (31) comprises a lifting belt (311), a driving roller shaft group (312), a driven roller shaft group (313), a plurality of V-shaped transmission roller shaft groups (314) and a plurality of flat transmission roller shaft groups (315);

the discharge end of the lifting belt (311) is sleeved on the driving roller shaft group (312), and the feed end of the lifting belt (311) is sleeved on the driven roller shaft group (313);

the power output end of the lifting belt driving mechanism (32) penetrates through the movable rack (33) and is fixedly connected with the power input end of the driving roller shaft group (312);

the support ends of the V-shaped transmission roller shaft groups (314) are respectively fixed on the movable rack (33), and the roller shaft ends of the V-shaped transmission roller shaft groups (314) are respectively attached to the upper end face of the lifting belt (311);

the support ends of the plurality of flat transmission roller shaft groups (315) are respectively fixed on the movable rack (33), and the roller shaft ends of the plurality of flat transmission roller shaft groups (315) are respectively attached to the lower end surface of the lifting belt (311);

the upper end surface of the lifting belt (311) is in a V-shaped structure;

the discharge end of the horizontal belt transmission group (2) is matched with the feed end of the lifting belt (311).

3. The energy-saving feeding device for concrete production according to claim 2, characterized in that:

the V-shaped transmission roller shaft group (314) comprises a skew roller shaft bracket (3141), a first skew roller shaft (3142) and a second skew roller shaft (3143);

one end of the first oblique roller shaft (3142) is rotatably connected with one side end part of the oblique roller shaft bracket (3141), and the other end of the first oblique roller shaft (3142) is rotatably connected with the middle part of the oblique roller shaft bracket (3141);

one end of the second oblique roller shaft (3143) is rotatably connected with the other end of the oblique roller shaft bracket (3141), and the other end of the first oblique roller shaft (3142) is rotatably connected with the middle of the oblique roller shaft bracket (3141);

the first inclined roll shaft (3142) and the second inclined roll shaft (3143) are symmetrically distributed in a V shape;

the axial surface of the first inclined roll shaft (3142) and the axial surface of the second inclined roll shaft (3143) are respectively attached to the upper end surface of the lifting belt (311).

4. The energy-saving feeding device for concrete production according to claim 3, wherein:

the oblique roller shaft support (3141) comprises a horizontal support (31411), an n-shaped connecting piece (31412), a first connecting piece (31413) and a second connecting piece (31414);

one end of the horizontal support (31411) is fixedly connected with one end of the first connecting piece (31413), and the other end of the horizontal support (31411) is fixedly connected with one end of the second connecting piece (31414);

the n-shaped connecting piece (31412) is fixed in the middle of the horizontal bracket (31411);

the horizontal bracket (31411) is fixed on the movable rack (33);

one end of the first inclined roll shaft (3142) is rotatably connected with one end of the first connecting piece (31413), and the other end of the first inclined roll shaft (3142) is rotatably connected with one end of the n-shaped connecting piece (31412);

one end of the second inclined roll shaft (3143) is rotatably connected with one end of the second connecting piece (31414), and the other end of the second inclined roll shaft (3143) is rotatably connected with the other end of the n-shaped connecting piece (31412);

the first connecting piece (31413) and the second connecting piece (31414) are distributed in equal-height symmetry, and the height of the first connecting piece (31413) and the height of the second connecting piece (31414) are both higher than the height of the n-shaped connecting piece (31412).

5. The energy-saving feeding device for concrete production according to claim 2, characterized in that:

the flat transmission roller shaft group (315) comprises a flat roller shaft bracket (3151) and a flat roller shaft (3152);

the two ends of the flat roller shaft (3152) are respectively and rotatably connected with the convex angle ends at the two sides of the flat roller shaft support (3151);

the flat roller shaft support (3151) is fixed to the moving frame (33).

6. The energy-saving feeding device for concrete production according to claim 2, characterized in that:

the lifting belt driving mechanism (32) comprises a lifting belt servo motor (321) and a lifting belt chain transmission device (322);

the power output end of the lifting belt servo motor (321) is fixedly connected with the power input end of the lifting belt chain transmission device (322);

the power output end of the lifting belt chain transmission device (322) penetrates through the movable rack (33) and is fixedly connected with the power input end of the driving roller shaft group (312);

the lifting belt servo motor (321) is fixed on the movable rack (33).

7. The energy-saving feeding device for concrete production according to claim 1, characterized in that:

the bottom of the movable frame (33) is fixed with a universal wheel (4).

8. The energy-saving feeding device for concrete production according to claim 1, characterized in that:

the horizontal belt transmission group (2) comprises a V-shaped horizontal belt mechanism (21), a horizontal belt driving mechanism (22) and a horizontal rack (23);

the power output end of the horizontal belt driving mechanism (22) penetrates through the horizontal rack (23) to be fixedly connected with the power input end of the V-shaped horizontal belt mechanism (21);

the discharge end of the V-shaped horizontal belt mechanism (21) is matched with the feed end of the V-shaped lifting belt mechanism (31);

the upper end surface of the belt of the V-shaped horizontal belt mechanism (21) is in a V-shaped structure;

the horizontal rack (23) is fixed on the rack end of the roller transmission group (1).

9. The energy-saving feeding device for concrete production according to claim 1, characterized in that:

the roller transmission group (1) comprises a rolling mechanism (11), a rolling group driving mechanism (12) and a rolling group frame (13);

the power output end of the rolling group driving mechanism (12) is fixedly connected with the power input end of the rolling mechanism (11);

the rolling group driving mechanism (12) is fixed on the rolling group rack (13);

the discharge end of the rolling mechanism (11) is matched with the feed end of the horizontal belt transmission group (2).

10. The energy-saving feeding device for concrete production according to claim 9, characterized in that:

the rolling mechanism (11) comprises a roller (111), a driving roller group (112), a driven roller group (113) and an annular guide rail (114);

the annular guide rail (114) is fixed at the end part of the roller (111);

the roller end of the driving roller group (112) rolls along the annular guide rail (114), and the support end of the driving roller group (112) is fixed on the rolling group rack (13);

the power output end of the rolling group driving mechanism (12) is fixedly connected with the power input end of the driving roller group (112);

the roller end of the driven roller group (113) rolls along the annular guide rail (114), and the support end of the driven roller group (113) is fixed on the rolling group frame (13);

the discharge end of the roller (111) is matched with the feed end of the horizontal belt transmission group (2).

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