CN218779488U - Ground source heat pump ground pipe laying backfilling equipment - Google Patents

Abstract

The utility model provides a ground source heat pump ground pipe laying backfilling device, which comprises a transverse bottom plate, a wheel carrier, a moving wheel, a fixed outer frame, a stirring inner frame, a top fixed plate, a driving motor, a feeding hopper, a transmission rod, a stirring rod, an auxiliary discharging frame structure, an accelerated feeding frame structure, a vibrating screen material frame structure, a stirring switch and a material conveying switch, wherein the wheel carrier bolts are arranged at four corners of the lower part of the transverse bottom plate; the fixed outer frame bolt is arranged on the upper side of the transverse bottom plate; the stirring inner frame is arranged on the inner side of the fixed outer frame through bolts; the top fixing plate is arranged on the upper part of the fixed outer frame through bolts. The auger of the utility model is arranged at the left side inside the transverse pipe and is connected with the output shaft of the conveying motor by bolts, which is favorable for driving the auger to rotate by the conveying motor when in use, thereby conveniently conveying materials to the left side; the rotating blades are welded on the left side and the right side of the rotating sleeve, and materials at the bottom of the bottom guide-out frame can be scraped conveniently when the scraper is used.

Description

Ground source heat pump ground pipe laying backfilling equipment

Technical Field

The utility model belongs to the technical field of backfilling equipment, especially, relate to a ground source heat pump buried pipe backfilling equipment.

Background

At present, cement, sand, water and the like are manually stirred uniformly and then filled with a shovel in the process of backfilling a buried pipe, and the backfilling method has the defects of low backfilling speed, uneven stirring, unrealistic backfilling, easy occurrence of gaps, inconvenience for heat exchange, low heat efficiency, energy waste and high user operation cost.

However, the existing backfilling equipment also has the problems that the materials at the bottom are inconvenient to be led out, the materials at the corner are inconvenient to be stirred, and the material pouring position is inconvenient to be uniformly shaken.

Therefore, the invention discloses a ground source heat pump buried pipe backfilling device which is very necessary.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a ground source heat pump buried pipe backfilling equipment to solve current backfilling equipment and have inconvenient to the derivation of bottom material thing, the material thing of inconvenient diagonal angle whereabouts is stirred and is inconvenient to annotate the material position and shake even problem. A backfilling device for a ground source heat pump buried pipe comprises a transverse bottom plate, a wheel carrier, a moving wheel, a fixed outer frame, a stirring inner frame, a top fixed plate, a driving motor, a feeding hopper, a transmission rod, a stirring rod, an auxiliary discharge frame structure, an accelerating material filling frame structure, a vibrating screen material frame structure, a stirring switch and a material conveying switch, wherein the wheel carrier is mounted at four corners of the lower part of the transverse bottom plate through bolts; the fixed outer frame bolt is arranged on the upper side of the transverse bottom plate; the stirring inner frame is arranged on the inner side of the fixed outer frame through bolts; the top fixing plate is mounted at the upper part of the fixed outer frame through bolts; the driving motor is mounted on the middle upper part of the top fixing plate through a bolt; the transmission rod is arranged in the middle of the inner side of the stirring inner frame, and the upper end of the transmission rod is connected with a lower output shaft coupler of the driving motor; the stirring rods are welded on the left side and the right side of the transmission rod; the auxiliary discharge frame structure is arranged at the middle lower part of the fixed outer frame; the accelerating material filling frame structure is arranged on the left side of the upper part of the transverse bottom plate; the vibrating screen material rest structure is arranged on the left side of the accelerated material injection rest structure; the stirring switch and the material conveying switch are embedded in the right lower side of the front part of the fixed outer frame; the accelerated material injection frame structure comprises a transverse pipe, an adjusting valve, a baffle, a material conveying motor, a packing auger, a delivery pipe and a material conveying pipe, wherein the baffle is welded on the left side of the transverse pipe; the material conveying motor is mounted on the left side of the baffle through a bolt; the delivery pipe is inserted at the left side of the lower part of the transverse pipe; the delivery pipe screw is arranged at the lower part of the delivery pipe.

Preferably, the vibrating screen material frame structure comprises a fixed pipe, a protective frame, a rotating motor, a flexible pipe, a vibrating pipe, a transmission reinforcing steel rope and an eccentric wheel, wherein the protective frame is arranged on the front side of the fixed pipe through a bolt; the rotating motor bolt is arranged in the protective frame; the flexible pipe bolt is arranged on the left side of the protection frame; the vibration tube is glued to the left side of the flexible tube; the transmission reinforcing steel rope is inserted inside the flexible pipe and the vibration pipe and is connected with an output shaft coupler of the rotating motor at the right end; the eccentric wheel is arranged on the inner side of the vibrating tube and is welded on the outer side of the transmission reinforcing steel bar rope.

Preferably, the auxiliary discharge frame structure comprises a bottom guide frame, a ball bearing, a rotary sleeve, a rotary blade and an opening, wherein the bottom guide frame is mounted on the middle upper part of the transverse bottom plate through bolts and is welded on the middle lower part of the stirring inner frame; the rotary sleeve is connected to the lower part of the outer side of the transmission rod in a key mode and is simultaneously inserted into an inner ring of the ball bearing; the opening is formed in the inner side of the rotating blade; the transverse pipe bolt is arranged on the left side of the upper part of the transverse bottom plate and is communicated with the left side of the bottom guide-out frame.

Preferably, the auger is arranged on the left side of the inside of the transverse pipe and is connected with an output shaft of the conveying motor through a bolt.

Preferably, the rotary blades are welded to the left and right sides of the rotary sleeve.

Preferably, the eccentric wheel is arranged on the inner side of the vibration pipe and is welded on the outer side of the transmission reinforcing steel bar rope.

Preferably, the ball bearing outer ring is welded at the middle position of the bottom guide-out frame.

Preferably, the moving wheel is connected with the lower part of the wheel frame.

Preferably, the regulating valve is screwed on the right side of the transverse pipe.

Preferably, the fixed pipe bolt is installed on the left side of the feed delivery pipe.

Preferably, the feeding hopper is inserted at the right side of the upper part of the top fixing plate.

Preferably, the driving motor, the rotating motor and the material conveying motor are respectively Y2-1, the driving motor is electrically connected with the stirring switch, and the rotating motor and the material conveying motor are electrically connected with the material conveying switch.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses in, the auger setting in the inside left side of horizontal pipe, simultaneously with the output shaft bolted connection of defeated material motor, be favorable to using defeated material motor to drive the auger rotatory when using to the material thing is carried to the left side to the convenience.

2. The utility model discloses in, rotating vane welding in rotating sleeve's the left and right sides, be favorable to conveniently striking off the material thing of frame bottom is derived to the bottom when using.

3. The utility model discloses in, the eccentric wheel setting in the inboard of vibrations pipe, the welding is in the outside of transmission reinforcing bar rope simultaneously, is favorable to utilizing the rotating electrical machines to pass through transmission reinforcing bar rope to drive the eccentric wheel rotatory when using to utilize the vibrations pipe to drive material thing on every side and play and shake even function.

4. The utility model discloses in, ball bearing outer lane welding in the bottom intermediate position that the frame was derived to the bottom, be favorable to increasing the location effect of pairing rotation sheathed tube when using.

5. The utility model discloses in, removal wheel hub connect in the lower part of wheel carrier, be favorable to conveniently removing this equipment when using.

6. The utility model discloses in, governing valve threaded connection on the right side of horizontal pipe, be favorable to not stirring at the material thing and can play when complete and shelter from the function.

7. The utility model discloses in, the stay tube bolt install in the left side of conveying pipeline, be favorable to conveniently carrying out the dismouting with it according to the demand when using.

8. The utility model discloses in, go into the hopper peg graft on the upper portion right side of top fixed plate, be favorable to conveniently leading-in the raw materials when using.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic structural view of an auxiliary discharge frame structure according to the present invention;

fig. 3 is a schematic structural view of the structure of the acceleration material filling frame of the present invention;

fig. 4 is the structure schematic diagram of the vibrating screen rack structure of the utility model.

In the figure:

1. a transverse bottom plate; 2. a wheel carrier; 3. a moving wheel; 4. fixing the outer frame; 5. stirring the inner frame; 6. a top fixing plate; 7. a drive motor; 8. feeding into a hopper; 9. a transmission rod; 10. a stirring rod; 11. an auxiliary racking structure; 111. a bottom lead-out frame; 112. a ball bearing; 113. rotating the sleeve; 114. a rotating blade; 115. opening a hole; 12. an accelerated material injection rack structure; 121. a transverse tube; 122. adjusting a valve; 123. a baffle plate; 124. a conveying motor; 125. a packing auger; 126. a delivery pipe; 127. a delivery pipe; 13. a vibrating screen material rack structure; 131. a fixed tube; 132. a protective frame; 133. a rotating electric machine; 134. a flexible tube; 135. a vibrating tube; 136. driving the reinforcing steel rope; 137. an eccentric wheel; 14. a stirring switch; 15. a material conveying switch.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in figures 1 and 3

The utility model provides a ground source heat pump ground pipe laying backfilling equipment, including horizontal bottom plate 1, wheel carrier 2, moving wheel 3, fixed frame 4, stirring inside casing 5, top fixed plate 6, driving motor 7, go into hopper 8, transfer line 9, puddler 10, supplementary emission frame structure 11, the frame structure 12 is annotated with higher speed, vibrations sieve material frame structure 13, stirring switch 14 and defeated material switch 15, wheel carrier 2 bolt install in the lower part four corners of horizontal bottom plate 1; the fixed outer frame 4 is arranged on the upper side of the transverse bottom plate 1 through bolts; the stirring inner frame 5 is arranged on the inner side of the fixed outer frame 4 through bolts; the top fixing plate 6 is arranged on the upper part of the fixing outer frame 4 through bolts; the driving motor 7 is mounted on the middle upper part of the top fixing plate 6 through bolts; the transmission rod 9 is arranged in the middle of the inner side of the stirring inner frame 5, and the upper end of the transmission rod is connected with a lower output shaft coupler of the driving motor 7; the stirring rods 10 are welded on the left side and the right side of the transmission rod 9; the auxiliary discharge frame structure 11 is arranged at the middle lower part of the fixed outer frame 4; the accelerating material filling frame structure 12 is arranged on the left side of the upper part of the transverse bottom plate 1; the vibrating screen rack structure 13 is arranged on the left side of the accelerated material injection rack structure 12; the stirring switch 14 and the material conveying switch 15 are embedded in the right lower side of the front part of the fixed outer frame 4; the moving wheel 3 is coupled to the lower part of the wheel carrier 2, so that the device can be conveniently moved when in use, and the feeding hopper 8 is inserted into the right side of the upper part of the top fixing plate 6, so that raw materials can be conveniently introduced when in use; the accelerating material filling frame structure 12 comprises a transverse pipe 121, an adjusting valve 122, a baffle 123, a material conveying motor 124, an auger 125, a delivery pipe 126 and a material conveying pipe 127, wherein the baffle 123 is welded on the left side of the transverse pipe 121; the conveying motor 124 is arranged on the left side of the baffle 123 through bolts; the delivery pipe 126 is inserted at the left side of the lower part of the transverse pipe 121; the delivery pipe 127 is arranged at the lower part of the delivery pipe 126 by screws; auger 125 set up in the inside left side of horizontal pipe 121, simultaneously with defeated material motor 124's output shaft bolted connection, the convenience drives auger 125 rotatory with defeated material motor 124 when using to conveniently carry the material thing to the left side, governing valve 122 threaded connection on the right side of horizontal pipe 121, can play the function of sheltering from when the material thing does not stir completely.

In the above embodiment, as shown in fig. 4, specifically, the vibrating screen rack structure 13 includes a fixed pipe 131, a protective frame 132, a rotating motor 133, a flexible pipe 134, a vibrating pipe 135, a driving reinforcing steel rope 136 and an eccentric wheel 137, wherein the protective frame 132 is mounted on the front side of the fixed pipe 131 by bolts; the rotating motor 133 is mounted inside the protective frame 132 through bolts; the flexible pipe 134 is installed on the left side of the protection frame 132 through bolts; the vibration tube 135 is glued on the left side of the flexible tube 134; the transmission reinforcing steel rope 136 is inserted inside the flexible pipe 134 and the vibration pipe 135, and is connected with the output shaft coupling of the rotating motor 133 at the right end; the eccentric wheel 137 is arranged at the inner side of the vibration tube 135 and is welded at the outer side of the transmission reinforcing steel bar rope 136; the eccentric wheel 137 is arranged on the inner side of the vibrating tube 135 and is welded on the outer side of the transmission reinforcing steel rope 136, the rotating motor 133 is used to drive the eccentric wheel 137 to rotate through the transmission reinforcing steel rope 136 when the vibrating tube is used, so that the vibrating tube 135 is used to drive surrounding materials to achieve the function of uniform vibration, the fixing tube 131 is installed on the left side of the conveying tube 127 through bolts, and the vibrating tube is convenient to disassemble and assemble according to requirements when in use.

In the above embodiment, as shown in fig. 2, in particular, the auxiliary discharge frame structure 11 includes a bottom lead-out frame 111, a ball bearing 112, a rotating sleeve 113, a rotating blade 114 and an opening 115, wherein the bottom lead-out frame 111 is bolted to the middle upper portion of the transverse base plate 1 and is welded to the middle lower portion of the stirring inner frame 5; the rotary sleeve 113 is connected with the lower part of the outer side of the transmission rod 9 in a key way and is inserted into the inner ring of the ball bearing 112; the opening 115 is arranged on the inner side of the rotating blade 114; the transverse pipe 121 is installed on the left side of the upper part of the transverse bottom plate 1 through a bolt and is communicated with the left side of the bottom guiding-out frame 111; the rotating blades 114 are welded on the left side and the right side of the rotating sleeve 113, so that materials at the bottom of the bottom leading-out frame 111 can be conveniently scraped off when the rotating sleeve is used, the outer ring of the ball bearing 112 is welded at the middle position of the bottom leading-out frame 111, and the positioning effect of the rotating sleeve 113 can be increased when the rotating sleeve is used.

Principle of operation

The utility model discloses in the course of the work, pour into the inboard of stirring inside casing 5 with the raw materials from going into hopper 8 during use, open stirring switch 14 simultaneously, so as to supply power for driving motor 7, thereby it is rotatory to utilize transfer line 9 to drive puddler 10, it is rotatory to drive rotating vane 114 through rotating sleeve 113 simultaneously, thereby stir the raw materials, insert notes material position with the whole and conveying pipeline 127's of vibrations screen frame structure 13 lower extreme simultaneously, then open governing valve 122 and conveying switch 15 simultaneously, so as to supply power for conveying pipeline 124 and rotating electrical machines 133, utilize rotating vane 114 to promote the material thing in horizontal pipe 121, utilize conveying pipeline 124 to drive auger 125 to the side left and carry the material thing simultaneously, at last conveying pipeline 127 drops to annotate the material position, utilize rotating electrical machines 133 to drive eccentric wheel 137 at vibrations pipe 135 internal rotation through transmission reinforcing bar 136 simultaneously, so as to annotate the material position and shake evenly.

Utilize technical scheme, or technical staff in the field be in the utility model technical scheme's inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.

Claims (9)

1. The backfilling equipment for the buried pipe of the ground source heat pump is characterized by comprising a transverse bottom plate (1), a wheel carrier (2), a moving wheel (3), a fixed outer frame (4), a stirring inner frame (5), a top fixing plate (6), a driving motor (7), a feeding hopper (8), a transmission rod (9), a stirring rod (10), an auxiliary discharging frame structure (11), an accelerating material filling frame structure (12), a vibrating screen frame structure (13), a stirring switch (14) and a material conveying switch (15), wherein the wheel carrier (2) is arranged at four corners of the lower part of the transverse bottom plate (1) through bolts; the fixed outer frame (4) is arranged on the upper side of the transverse bottom plate (1) through bolts; the stirring inner frame (5) is arranged on the inner side of the fixed outer frame (4) through bolts; the top fixing plate (6) is arranged on the upper part of the fixed outer frame (4) through bolts; the driving motor (7) is mounted on the middle upper part of the top fixing plate (6) through bolts; the transmission rod (9) is arranged in the middle of the inner side of the stirring inner frame (5), and the upper end of the transmission rod is connected with a lower output shaft coupler of the driving motor (7); the stirring rods (10) are welded on the left side and the right side of the transmission rod (9); the auxiliary discharge frame structure (11) is arranged at the middle lower part of the fixed outer frame (4); the accelerating material filling frame structure (12) is arranged on the left side of the upper part of the transverse bottom plate (1); the vibrating screen material rack structure (13) is arranged on the left side of the accelerating material injection rack structure (12); the stirring switch (14) and the material conveying switch (15) are embedded in the right lower side of the front part of the fixed outer frame (4); the accelerated material filling frame structure (12) comprises a transverse pipe (121), an adjusting valve (122), a baffle plate (123), a material conveying motor (124), an auger (125), a delivery pipe (126) and a material conveying pipe (127), wherein the baffle plate (123) is welded on the left side of the transverse pipe (121); the material conveying motor (124) is arranged on the left side of the baffle (123) through bolts; the delivery pipe (126) is inserted at the left side of the lower part of the transverse pipe (121); the delivery pipe (127) is arranged at the lower part of the delivery pipe (126) through a screw.

2. The ground source heat pump buried pipe backfilling device according to claim 1, wherein said vibrating screen frame structure (13) comprises a fixed pipe (131), a protective frame (132), a rotating motor (133), a flexible pipe (134), a vibrating pipe (135), a driving reinforcing bar rope (136) and an eccentric wheel (137), said protective frame (132) is bolted on the front side of the fixed pipe (131); the rotating motor (133) is installed inside the protective frame (132) through bolts; the flexible pipe (134) is arranged on the left side of the protective frame (132) through bolts; the vibration tube (135) is glued to the left side of the flexible tube (134); the transmission reinforcing steel rope (136) is inserted into the inner sides of the flexible pipe (134) and the vibration pipe (135) and is connected with a coupling of an output shaft of the rotating motor (133) at the right end; the eccentric wheel (137) is arranged on the inner side of the vibration pipe (135) and is welded on the outer side of the transmission reinforcing steel bar rope (136).

3. The ground source heat pump ground pipe backfilling device according to claim 1, wherein the auxiliary discharge frame structure (11) comprises a bottom lead-out frame (111), a ball bearing (112), a rotating sleeve (113), a rotating blade (114) and an opening (115), the bottom lead-out frame (111) is bolted on the middle upper part of the transverse bottom plate (1) and is welded on the middle lower part of the stirring inner frame (5); the rotary sleeve (113) is in key connection with the lower part of the outer side of the transmission rod (9) and is simultaneously inserted into the inner ring of the ball bearing (112); the opening (115) is formed in the inner side of the rotating blade (114); the transverse pipe (121) is mounted on the left side of the upper part of the transverse bottom plate (1) through a bolt and communicated with the left side of the bottom guide-out frame (111).

4. The ground source heat pump buried pipe backfilling device according to claim 1, characterized in that the packing auger (125) is arranged at the left side of the inside of the transverse pipe (121) and is connected with the output shaft of the conveying motor (124) through a bolt.

5. The ground source heat pump ground pipe backfill apparatus according to claim 3, wherein the rotating blades (114) are welded on the left and right sides of the rotating sleeve (113).

6. The ground source heat pump ground pipe backfilling device according to claim 3, wherein said ball bearing (112) outer ring is welded at the bottom middle position of the bottom guiding frame (111).

7. The ground source heat pump ground pipe backfilling device according to the claim 1, characterized in that the moving wheel (3) is coupled at the lower part of the wheel frame (2).

8. The ground source heat pump ground pipe backfill apparatus according to claim 1, characterized in that the adjusting valve (122) is screwed on the right side of the lateral pipe (121).

9. The ground source heat pump ground pipe backfill apparatus according to claim 2, characterized in that the fixed pipe (131) is bolted to the left side of the delivery pipe (127).

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