CN216334710U - Feeding equipment for building masonry mortar production - Google Patents

Abstract

The utility model belongs to the field of mortar feeding machines, and particularly relates to feeding equipment for producing building masonry mortar, which comprises a feeding hole of a mortar feeding machine, a support frame, a conveying pipe, a motor, a discharging hole and a guide plate, wherein the feeding hole is formed in the support frame; a support frame is fixedly installed on one side of a feed port of the mortar feeding machine, a conveying pipe is fixedly installed at the bottom of the feed port of the mortar feeding machine, a motor is fixedly installed at one end of the conveying pipe, a discharge port is formed in the surface of the conveying pipe, and a guide plate is arranged on one side of the discharge port; also laminating mutually with solid fixed ring through the one side that lets the slide, the bolt on the slide and the screw hole on solid fixed ring are on same straight line this moment, twist and move the bolt and get into the downthehole fixing of screw thread, and then also fixed together with the guide plate on solid fixed ring to in prolonging the discharge gate to corresponding equipment, when the motor drives the auger and begins to rotate the during operation, the mortar is delivered to discharge gate department by the auger, rethread discharge gate and guide plate flow away, flow in the processing equipment that corresponds.

Description

Feeding equipment for building masonry mortar production

Technical Field

The utility model relates to the field of mortar feeding machines, in particular to feeding equipment for producing building masonry mortar.

Background

The mortar feeding machine is feeding equipment and can convey mortar to a specified position for processing.

The auger is installed in the conveyer pipe of current mortar material loading machine, and the motor can drive the auger and rotate, and in the mortar got into the conveyer pipe through the feed inlet, let the motor drive the auger in the conveyer pipe and rotate again to carry mortar to discharge gate department, make the mortar be passed to in the next processing equipment.

The discharge ports on the traditional mortar feeding machine are too short, so that the discharge ports are difficult to spray into corresponding equipment when the last mortar is discharged, and often fall onto the ground, and the traditional mortar feeding machine is not provided with a flow guide device, so that the last mortar cannot be transmitted into the corresponding equipment; therefore, the feeding equipment for producing the building masonry mortar is provided aiming at the problems.

SUMMERY OF THE UTILITY MODEL

In order to make up for the defects of the prior art and solve the problems that the last mortar is difficult to spray into the corresponding equipment and often falls onto the ground when the last mortar is discharged from the discharge port due to the fact that the discharge ports on the traditional mortar feeding machine are too short, and the last mortar cannot be transmitted into the corresponding equipment due to the fact that the traditional mortar feeding machine is not provided with a flow guide device, the utility model provides the feeding equipment for producing the building masonry mortar.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the utility model relates to feeding equipment for producing building masonry mortar, which comprises a mortar feeding machine feeding hole, a support frame, a conveying pipe, a motor, a discharging hole and a guide plate, wherein the mortar feeding machine feeding hole is formed in the bottom of the support frame; a support frame is fixedly mounted on one side of a feed port of the mortar feeding machine, a conveying pipe is fixedly mounted at the bottom of the feed port of the mortar feeding machine, a motor is fixedly mounted at one end of the conveying pipe, a discharge port is formed in the surface of the conveying pipe, a guide plate is arranged on one side of the discharge port, a fixing ring is fixedly mounted at one end of the guide plate, a threaded hole is formed in one side of the fixing ring, a lantern ring is fixedly sleeved on the outer surface of the discharge port, a bottom support is fixedly mounted on one side of the lantern ring, a fixing block is fixedly mounted on one side of the lantern ring, a sliding plate is slidably connected to one side of the fixing block, and a bolt is in threaded connection with one side of the sliding plate; the discharge port is extended into the corresponding equipment.

Preferably, the outer surface of the discharge port is provided with a rectangular groove, and the inner wall of the fixing ring is fixedly provided with a rubber block; the guide plate is prevented from being placed incorrectly, and the condition that the guide effect is not good is avoided.

Preferably, one side of the fixed block is connected with a sliding block in a sliding manner, the sliding block is L-shaped, and one side of the sliding plate is provided with a groove; the slide plate is prevented from being reset under the influence of gravity.

Preferably, the top end of the guide plate is provided with a sliding chute, a sliding rod is connected inside the sliding chute in a sliding manner, a rotating plate is movably sleeved on the surface of the sliding rod, a scraping plate is connected inside the rotating plate in a sliding manner, the top of the rotating plate is connected with a push rod in a sliding manner, and one end of the push rod is fixedly arranged with the scraping plate; the scraper scrapes the residual mortar in the guide plate completely, so that the residual mortar is prevented from existing in the guide plate.

Preferably, one side of the rotating plate is provided with a positioning hole, the outer surface of the guide plate is fixedly connected with two connecting blocks, one side of each connecting block, which is close to the other connecting block, is connected with a positioning block in a sliding manner, the positioning block is L-shaped, and a spring is fixedly arranged between the positioning block and the guide plate; and the positioning block is inserted into the positioning hole of the rotating plate, and then the rotating plate and the scraper are fixed.

Preferably, a baffle is fixedly installed at the top end of the sliding rod, and buffer cotton is fixedly installed at one end, close to the sliding rod, of the baffle; the baffle can play the effect of avoiding the rotor plate roll-off slide bar, and the buffering cotton on the baffle plays the effect that reduces rotor plate striking baffle.

The utility model has the advantages that:

1. the utility model leads the sliding plate to drive the bolt to slide towards the direction far away from the discharge hole by sliding the sliding plate on the fixed block, at the moment, the fixed ring on the guide plate is sleeved on the surface of the discharge hole, the fixed ring and the guide plate slide towards the lantern ring, and the bottom support on the lantern ring supports the fixing ring to provide support for the fixing ring, so that one side of the fixing ring is attached to the inner wall of the lantern ring, when the fixing ring is put in place, the sliding plate is reset, so that one side of the sliding plate is also attached to the fixing ring, the bolt on the sliding plate and the threaded hole on the fixing ring are on the same straight line, the bolt is screwed into the threaded hole for fixing, thereby fixing the guide plate on the fixing ring together, extending the discharge hole into the corresponding equipment, when the motor drives the packing auger to start rotating, mortar is conveyed to the discharge port by the packing auger and flows away through the discharge port and the guide plate to flow into corresponding processing equipment.

2. According to the utility model, the rotating plate is rotated to the upper part of the guide plate by sliding the rotating plate on the sliding rod, then the rotating plate slides towards the direction of the sliding groove, the scraper blade on the rotating plate is not attached to the inner wall of the guide plate at the moment, the push rod in the rotating plate is pushed at the moment, the push rod drives the scraper blade in the rotating plate to move towards the guide plate, one end of the scraper blade is attached to the inner wall of the guide plate, then the sliding rod in the sliding groove is slid, the rotating plate, the push rod and the scraper blade are driven by the sliding rod to move, further the scraper blade scrapes the residual mortar in the guide plate completely, and the residual mortar is prevented from being stored in the guide plate.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

FIG. 1 is a schematic structural view of a feed port of a mortar feeder according to an embodiment;

FIG. 2 is a schematic structural diagram of a baffle according to an embodiment I;

FIG. 3 is a schematic diagram of a structure shown in FIG. 2 according to a first embodiment;

FIG. 4 is a schematic view of a retaining ring according to an embodiment;

FIG. 5 is a schematic structural diagram at B of FIG. 2 according to a first embodiment;

FIG. 6 is a schematic view showing a structure of a squeegee according to a first embodiment;

fig. 7 is a schematic structural view of a universal wheel according to a second embodiment.

In the figure: 1. a feeding hole of a mortar feeding machine; 2. a support frame; 3. a delivery pipe; 4. a motor; 5. a discharge port; 601. a baffle; 602. a fixing ring; 603. a collar; 604. a bottom support; 605. a fixed block; 606. a slide plate; 607. a bolt; 608. a threaded hole; 609. a rectangular groove; 610. a rubber block; 611. a groove; 612. a slider; 701. a chute; 702. a slide bar; 703. a rotating plate; 704. a push rod; 705. a squeegee; 706. a baffle plate; 707. buffering cotton; 708. positioning holes; 709. connecting blocks; 710. positioning blocks; 711. a spring; 8. a universal wheel.

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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1-6, a feeding device for producing building masonry mortar comprises a mortar feeding machine feeding port 1, a support frame 2, a conveying pipe 3, a motor 4, a discharging port 5 and a guide plate 601; a support frame 2 is fixedly installed on one side of a feed port 1 of the mortar feeding machine, a conveying pipe 3 is fixedly installed at the bottom of the feed port 1 of the mortar feeding machine, a motor 4 is fixedly installed at one end of the conveying pipe 3, a discharge port 5 is formed in the surface of the conveying pipe 3, a guide plate 601 is arranged on one side of the discharge port 5, a fixing ring 602 is fixedly installed at one end of the guide plate 601, a threaded hole 608 is formed in one side of the fixing ring 602, a sleeve ring 603 is fixedly sleeved on the outer surface of the discharge port 5, a bottom support 604 is fixedly installed on one side of the sleeve ring 603, a fixing block 605 is fixedly installed on one side of the sleeve ring 603, a sliding plate 606 is slidably connected to one side of the fixing block 605, and a bolt 607 is in threaded connection with one side of the sliding plate 606; when the device works, the sliding plate 606 on the fixed block 605 slides to bring the bolt 607 to slide in the direction far away from the discharge port 5, at this time, the fixing ring 602 on the guide plate 601 is sleeved on the surface of the discharge port 5, the fixing ring 602 and the guide plate 601 slide in the direction of the sleeve ring 603, and the bottom support 604 on the sleeve ring 603 supports the fixing ring 602 to provide support for the fixing ring 602, so that one side of the fixing ring 602 is attached to the inner wall of the sleeve ring 603, the sliding plate 606 is reset after the fixing ring 602 is placed, so that one side of the sliding plate 606 is also attached to the fixing ring 602, at this time, the bolt 607 on the sliding plate 606 and the threaded hole 608 on the fixing ring 602 are on the same straight line, the bolt 607 is screwed into the threaded hole 608 to be fixed, and the guide plate 601 on the fixing ring 602 is also fixed together, so that the discharge port 5 is extended into corresponding equipment, when the motor 4 drives the packing auger to start to rotate, the mortar is conveyed to the discharge port 5 by the auger, flows away through the discharge port 5 and the guide plate 601, and flows into the corresponding processing equipment.

A rectangular groove 609 is formed in the outer surface of the discharge port 5, and a rubber block 610 is fixedly mounted on the inner wall of the fixing ring 602; during operation, when the one side of solid fixed ring 602 and lantern ring 603 were laminated mutually, rotate solid fixed ring 602 for the rubber piece 610 of solid fixed ring 602 inner wall changes over to in the rectangular channel 609 of discharge gate 5, and then puts solid fixed ring 602 and guide plate 601 upright, avoids guide plate 601 to appear putting just, leads to the not good condition of water conservancy diversion effect to take place.

One side of the fixed block 605 is slidably connected with a sliding block 612, the sliding block 612 is L-shaped, and one side of the sliding plate 606 is provided with a groove 611; during operation, when the sliding plate 606 slides in a direction away from the discharge hole 5, the groove 611 and the sliding block 612 on the sliding plate 606 are in the same straight line, and the sliding block 612 slides, so that the short arm end of the sliding block 612 enters the rectangular groove 609 to be clamped and fixed, and the sliding plate 606 is prevented from being reset due to the influence of gravity.

The top end of the guide plate 601 is provided with a sliding groove 701, the inside of the sliding groove 701 is connected with a sliding rod 702 in a sliding manner, the surface of the sliding rod 702 is movably sleeved with a rotating plate 703, the inside of the rotating plate 703 is connected with a scraper 705 in a sliding manner, the top of the rotating plate 703 is connected with a push rod 704 in a sliding manner, and one end of the push rod 704 and the scraper 705 are fixed; when the device works, the rotating plate 703 is rotated to the upper part of the guide plate 601 by sliding the rotating plate 703 on the sliding rod 702, then the rotating plate 703 is slid towards the direction of the sliding groove 701, and the scraper 705 on the rotating plate 703 is not attached to the inner wall of the guide plate 601 at the moment, the push rod 704 in the rotating plate 703 is pushed at the moment, the push rod 704 drives the scraper 705 in the rotating plate 703 to move towards the guide plate 601, so that one end of the scraper 705 is attached to the inner wall of the guide plate 601, then the sliding rod 702 in the sliding groove 701 is slid, the sliding rod 702 drives the rotating plate 703, the push rod 704 and the scraper 705 to move, further the scraper 705 completely scrapes the residual mortar in the guide plate 601, and the residual mortar is prevented from being stored in the guide plate 601.

A positioning hole 708 is formed in one side of the rotating plate 703, two connecting blocks 709 are fixedly connected to the outer surface of the guide plate 601, a positioning block 710 is slidably connected to one side of each connecting block 709, the positioning block 710 is L-shaped, and a spring 711 is fixedly installed between the positioning block 710 and the guide plate 601; when the rotating plate 703 is not used, the two connecting blocks 709 slide the positioning block 710 away from the guide plate 601, the positioning block 710 drives the spring 711 to move together, the rotating plate 703 rotates to the upper side of the sliding groove 701, the positioning block 710 is released, the spring 711 on the guide plate 601 recovers the elasticity, the spring 711 drives the positioning block 710 to reset, the positioning block 710 is inserted into the positioning hole 708 of the rotating plate 703, and the rotating plate 703 and the scraper 705 are fixed.

A baffle 706 is fixedly installed at the top end of the sliding rod 702, and a buffer cotton 707 is fixedly installed at one end of the baffle 706 close to the sliding rod 702; in operation, when the rotating plate 703 moves on the sliding rod 702, the baffle 706 can prevent the rotating plate 703 from sliding out of the sliding rod 702, and the buffer cotton 707 on the baffle 706 can reduce the impact of the rotating plate 703 on the baffle 706.

Example two

Referring to fig. 7, in a first comparative example, as another embodiment of the present invention, four universal wheels 8 are movably mounted at the bottom of the supporting frame 2; when in work: when the mortar material loading machine need remove in the minizone again, traditional mortar material loading machine all need lean on the staff hand to lift, and is very inconvenient, through installing universal wheel 8 this moment for the staff can push away the mortar material loading machine and remove, and then does not need the hand to lift, has improved the convenience of mortar material loading machine greatly.

The working principle is that the sliding plate 606 on the fixed block 605 slides along the direction far away from the discharge port 5 with the bolt 607, at this time, the groove 611 and the sliding block 612 on the sliding plate 606 are on the same straight line, the sliding block 612 slides, so that the short arm end of the sliding block 612 enters the rectangular groove 609 to be clamped and fixed, at this time, the fixed ring 602 on the guide plate 601 is sleeved on the surface of the discharge port 5, the fixed ring 602 and the guide plate 601 slide towards the lantern ring 603, the bottom support 604 on the lantern ring 603 supports the fixed ring 602 to provide support for the fixed ring 602, so that one side of the fixed ring 602 is attached to the inner wall of the lantern ring 603, at this time, the fixed ring 602 is rotated, so that the rubber block 610 on the inner wall of the fixed ring 602 is rotated into the rectangular groove 609 of the discharge port 5, and then the fixed ring 602 and the guide plate 601 are aligned, after the fixed ring 602 is placed, the sliding plate 606 is reset, so that one side of the sliding plate 606 is also attached to the fixed ring 602, at the moment, the bolt 607 on the sliding plate 606 and the threaded hole 608 on the fixing ring 602 are on the same straight line, the bolt 607 is screwed to enter the threaded hole 608 for fixing, and further the guide plate 601 on the fixing ring 602 is also fixed together, so that the discharge port 5 is extended into the corresponding equipment, when the motor 4 drives the packing auger to start rotating, the mortar is conveyed to the discharge port 5 by the packing auger, flows away through the discharge port 5 and the guide plate 601 and flows into the corresponding processing equipment, the rotating plate 703 is rotated above the guide plate 601 by sliding the rotating plate 703 on the sliding rod 702, and then the rotating plate 703 slides towards the sliding groove 701, and at the moment, the scraper 705 on the rotating plate 703 is not attached to the inner wall of the guide plate 601, when the rotating plate moves on the sliding rod 702, the baffle 706 can play a role of preventing the rotating plate 703 from sliding out of the sliding rod 702, and the buffer cotton 707 on the baffle 706 plays a role of reducing the impact of the rotating plate 703 on the baffle 706, at this time, the push rod 704 in the rotating plate 703 is pushed, so that the push rod 704 moves along with the scraper 705 in the rotating plate 703 to the guide plate 601, so that one end of the scraper 705 is attached to the inner wall of the guide plate 601, and then the sliding bar 702 in the sliding groove 701 slides, so that the sliding bar 702 drives the rotating plate 703, the push rod 704 and the scraper 705 to move, further, the scraper 705 scrapes the residual mortar in the guide plate 601 completely, thereby avoiding the residual mortar existing in the guide plate 601, when the rotating plate 703 is not used, the positioning block 710 of the two connecting blocks 709 is slid in a direction away from the guide plate 601, the positioning block 710 carries the spring 711 to move together, the rotating plate 703 is rotated above the sliding groove 701, and the positioning block 710 is released, the spring 711 on the guide plate 601 recovers the elasticity, the spring 711 drives the positioning block 710 to reset, the positioning block 710 is inserted into the positioning hole 708 of the rotating plate 703, and the rotating plate 703 and the scraper 705 are fixed.

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

The foregoing shows and describes the general principles, essential features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed.

Claims (6)

1. The utility model provides a charging equipment is used in production of building masonry mortar which characterized in that: comprises a feed inlet (1) of a mortar feeding machine, a support frame (2), a conveying pipe (3), a motor (4), a discharge outlet (5) and a guide plate (601); a support frame (2) is fixedly arranged on one side of the feed inlet (1) of the mortar feeding machine, the bottom of the feed inlet (1) of the mortar feeder is fixedly provided with a conveying pipe (3), a motor (4) is fixedly arranged at one end of the conveying pipe (3), a discharge hole (5) is arranged on the surface of the conveying pipe (3), a guide plate (601) is arranged on one side of the discharge hole (5), a fixed ring (602) is fixedly arranged at one end of the guide plate (601), one side of the fixed ring (602) is provided with a threaded hole (608), the outer surface of the discharge hole (5) is fixedly sleeved with a lantern ring (603), a bottom support (604) is fixedly arranged on one side of the lantern ring (603), a fixed block (605) is fixedly arranged on one side of the lantern ring (603), one side sliding connection of fixed block (605) has slide plate (606), one side threaded connection of slide plate (606) has bolt (607).

2. The feeding equipment for producing building masonry mortar according to claim 1, characterized in that: rectangular channel (609) are seted up to the surface of discharge gate (5), the inner wall fixed mounting of solid fixed ring (602) has block rubber (610).

3. The feeding equipment for producing building masonry mortar according to claim 2, characterized in that: one side of the fixed block (605) is connected with a sliding block (612) in a sliding mode, the sliding block (612) is L-shaped, and one side of the sliding plate (606) is provided with a groove (611).

4. The feeding equipment for producing building masonry mortar according to claim 3, characterized in that: the top end of the guide plate (601) is provided with a sliding groove (701), a sliding rod (702) is connected to the inside of the sliding groove (701) in a sliding mode, a rotating plate (703) is movably sleeved on the surface of the sliding rod (702), a scraping plate (705) is connected to the inside of the rotating plate (703) in a sliding mode, a push rod (704) is connected to the top of the rotating plate (703) in a sliding mode, and one end of the push rod (704) and the scraping plate (705) are fixedly installed.

5. The feeding equipment for producing building masonry mortar according to claim 4, characterized in that: the guide plate structure is characterized in that one side of the rotating plate (703) is provided with a positioning hole (708), the outer surface of the guide plate (601) is fixedly connected with two connecting blocks (709), one side of each connecting block (709) close to each other is connected with a positioning block (710) in a sliding mode, the positioning block (710) is L-shaped, and a spring (711) is fixedly installed between the positioning block (710) and the guide plate (601).

6. The feeding equipment for producing building masonry mortar according to claim 5, characterized in that: the top end of the sliding rod (702) is fixedly provided with a baffle (706), and one end of the baffle (706) close to the sliding rod (702) is fixedly provided with buffer cotton (707).

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