CN219977918U - Cement mortar compaction table - Google Patents

Abstract

The utility model relates to a cement mortar compaction table. The cement mortar vibration equipment solves the problems of poor stability, complex structure and inconvenient maintenance of cement mortar vibration equipment in the prior art. It includes processing pedestal, processing pedestal one end upside is equipped with locating rack structure and the other end is equipped with the jolt ramming seat structure, link to each other through mutual parallel arrangement's location horizontal pole between locating rack structure and the jolt ramming seat structure lower extreme, jolt ramming seat structure upper end is equipped with the jolt ramming platform, and jolt ramming seat structure is equipped with the vibrating pump subassembly that links to each other with jolt ramming platform bottom, jolt ramming platform up end one side is equipped with rotary compressing mechanism, and jolt ramming platform up end opposite side is equipped with the movable locking subassembly that is used for locking rotary compressing mechanism one end, link to each other through the horizontal pole mechanism that is mutual parallel arrangement with the location horizontal pole between jolt ramming platform and the locating rack structure. The utility model has the advantages that: simple structure, it is convenient to maintain, and stability is good moreover.

Description

Cement mortar compaction table

Technical Field

The utility model relates to the technical field of mechanical equipment, in particular to a cement mortar compaction table.

Background

The instrument is mainly composed of a vibrating component, a frame component and a proximity switch program control system, and when in operation, a synchronous motor drives a cam to rotate, so that the vibrating component moves up and falls down after rising to a fixed value, and vibration is generated to make cement mortar compact under the action of force. The cement mortar compaction table is widely applied at present, but most of the existing cement mortar compaction tables are not stable enough, falling easily occurs during mortar compaction, the operation is relatively inconvenient, and the working efficiency of the cement mortar compaction table is seriously affected; in addition, the existing cement mortar compaction table is complex in structure, high in maintenance cost and difficult to ensure the stability of equipment in the working process.

In order to solve the defects existing in the prior art, long-term exploration is performed, and various solutions are proposed. For example: the chinese patent literature discloses a cement mortar compaction platform [ CN202222310379.9] for cement manufacture, and it includes the stabilizer, the bottom movable mounting of stabilizer has the universal wheel, the top fixedly connected with cement mortar compaction platform of stabilizer, the outside fixedly connected with of cement mortar compaction platform places the board, clamping device has been placed at the top of placing the board, clamping device includes the head rod of fixedly connected with in placing the board top, the left side fixedly connected with guard box of head rod, the inside swing joint of guard box has the screw pole, the outside threaded connection of screw pole has the nut, the outside swing joint of screw pole has the movable rod, the left side fixedly connected with pulling handle of movable rod, the right side fixedly connected with grip block of movable rod, one side fixedly connected with first spring that the grip block is close to the movable rod.

The scheme solves the problems that the cement mortar compaction table in the prior art is inconvenient to operate and affects the working efficiency to a certain extent, but the scheme still has a plurality of defects, such as: the structure is complicated, the maintenance cost is high, and the stability of equipment in the working process is difficult to ensure.

Disclosure of Invention

The utility model aims to solve the problems and provides a cement mortar compaction table.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a cement mortar jolt ramming platform, including processing pedestal, processing pedestal one end upside is equipped with locating rack structure and the other end is equipped with jolt ramming seat structure, link to each other through mutual parallel arrangement's location horizontal pole between locating rack structure and the jolt ramming seat structure lower extreme, jolt ramming seat structure upper end is equipped with the jolt ramming platform, and jolt ramming seat structure is equipped with the vibrating pump subassembly that links to each other with jolt ramming platform bottom, jolt ramming platform up end one side is equipped with rotary hold-down mechanism, and jolt ramming platform up end opposite side is equipped with the movable locking subassembly that is used for locking rotary hold-down mechanism one end, link to each other through the horizontal pole mechanism with mutual parallel arrangement of location horizontal pole between jolt ramming platform and the locating rack structure.

Through set up tap seat structure and locating rack structure respectively on processing pedestal to the bottom passes through the location horizontal pole and links to each other, and is located tap platform of tap seat structure upper end and pass through horizontal pole mechanism and locating rack structural connection, can effectively ensure the stability of tap platform, secondly, effectively compress tightly the material test mould of treating tap through setting up rotary hold-down mechanism and movable locking subassembly on the tap platform, further improve stability, this cement mortar tap platform simple structure moreover, the maintenance cost is low, easily promotes.

In the cement mortar compaction table, the locating frame structure comprises a locating base, the locating base is fixed on the processing pedestal through a connecting screw rod, the locating frame is arranged at the upper end of the locating base, the locking connecting cylinder is arranged at the upper end of the locating frame, and the inserting locating cylinders for inserting the locating cross bars are arranged on the upper end face of the locating base and located on the two sides of the locating frame.

In the cement mortar compaction table, the cross rod mechanism comprises connecting cross rods which are arranged in parallel, one ends of the connecting cross rods are inserted into the insertion cylinders at the bottom of the compaction table, the other ends of the connecting cross rods are connected through connecting rods, the connecting rods are inserted into the locking connecting cylinders, locking screw rods are arranged at the upper ends of the locking connecting cylinders, and locking holes which are correspondingly arranged with the locking screw rods are formed in the connecting rods.

The connecting rod can be fixed to the interconnect of locking screw rod and locking hole to ensure the stability of connecting the horizontal pole, avoid vibration diffusion to cause the influence.

In the cement mortar compaction table, the compaction seat structure comprises a connecting base, wherein an installing cylinder body which is vertically arranged is arranged on the connecting base, plug-in connecting cylinders which are used for inserting the positioning cross rods are arranged on the connecting base and located on two sides of the installing cylinder body, a telescopic damping connecting rod is arranged in the installing cylinder body, and one end of the damping connecting rod is connected with the compaction table.

Can connect connection base and location base through the location horizontal pole, make vibrating force propagate, prevent to connect the too big damage that causes of base atress.

In the cement mortar compaction platform, the compaction platform comprises a vibration base, the upper end of the vibration base is provided with a mutually-attached storage platform, and the rotary compaction mechanism and the movable locking assembly are arranged on the storage platform.

In the cement mortar compaction table, the rotary compaction mechanism comprises longitudinal connecting rods which are symmetrically arranged, the longitudinal connecting rods are sleeved with positioning sleeves, one sides of the positioning sleeves are provided with plug connection parts, the plug connection parts are connected with compaction frame bodies through positioning plug rods, and one ends of the compaction frame bodies, far away from the plug connection parts, are provided with positioning screws.

The test die loaded with the rubber sand can be pressed and positioned through the pressing frame body, the positioning screw is positioned in the arc-shaped positioning groove, and the pressing structure is used for pressing, so that the stabilizing effect of one end of the pressing frame body is effectively ensured.

In the cement mortar compaction table, the movable locking assembly comprises a fixed base, a locking column is arranged on the fixed base, a movable through groove is formed in the middle of the locking column, an arc-shaped compaction structure is connected in the movable through groove through a positioning connecting rod, a locking limiting part is arranged on one side of the locking column, and an arc-shaped positioning groove corresponding to the positioning screw is formed in the upper end face of the locking column.

In the cement mortar compaction table, the arc-shaped compaction structure comprises an arc-shaped compaction part, one end of the arc-shaped compaction part is rotationally connected with the positioning connecting rod, and the other end of the arc-shaped compaction part is connected with the operating handle.

In the cement mortar compaction table, the lower end of the locking column penetrates through the lower end face of the compaction table, one end of the locking column, which is positioned on the lower end face of the compaction table, is sleeved with the damping spring, and the locking column is provided with the limit nut for limiting the damping spring.

In the cement mortar compaction table, the vibration pump assembly comprises a vibration pump arranged on one side of the installation cylinder, the other side of the installation cylinder is provided with an installation support, the installation support is provided with a vibration roller, and the upper end face of the vibration roller is mutually abutted against the bottom of the compaction table. The vibration roller can rotate to drive the compaction table to perform lifting movement.

Compared with the prior art, the utility model has the advantages that: simple structure, convenient operation not only can ensure the stability of connecting the base, can in time diffuse vibration power moreover, avoids connecting the independent bearing of base and causes the damage, and secondly, can compress tightly the examination mould of loading the gum sand through compressing tightly the mutually supporting of framework and movable locking subassembly, further improves the stability of material at the jolt ramming in-process.

Drawings

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is an enlarged view of the structure at A in FIG. 1;

FIG. 3 is a schematic view of a positioning frame according to the present utility model;

FIG. 4 is a schematic view of a rail mechanism of the present utility model;

FIG. 5 is a schematic view of the structure of the tap holder according to the present utility model;

FIG. 6 is a schematic view of a movable locking assembly according to the present utility model;

in the figure: the device comprises a processing pedestal 1, a positioning frame structure 2, a positioning base 21, a connecting screw 22, a positioning frame 23, a locking connecting cylinder 24, an inserting and positioning cylinder 25, a compaction seat structure 3, a connecting base 31, a mounting cylinder 32, an inserting and connecting cylinder 33, a damping connecting rod 34, a positioning cross rod 4, a compaction table 5, a vibration base 51, a storage platform 52, a vibration pump assembly 6, a vibration pump 61, a mounting bracket 62, a vibration roller 63, a rotary pressing mechanism 7, a longitudinal connecting rod 71, a positioning sleeve 72, an inserting and connecting part 73, a positioning inserting rod 74, a pressing frame 75, a positioning screw 76, a movable locking assembly 8, a fixed base 81, a locking column 82, a movable through groove 83, an arc pressing structure 84, an arc pressing part 841, an operation hand lever 842, a locking limit part 85, an arc positioning groove 86, a cushioning spring 87, a limit nut 88, a positioning connecting rod 89, a cross rod mechanism 9, a connecting cross rod 91, an inserting and a connecting rod 92, a connecting rod 93, a locking screw 94 and a locking hole 95.

Detailed Description

The utility model will be described in further detail with reference to the drawings and the detailed description.

As shown in fig. 1-6, a cement mortar compaction table comprises a processing pedestal 1, a positioning frame structure 2 is arranged on the upper side of one end of the processing pedestal 1, a compaction seat structure 3 is arranged at the other end of the processing pedestal, the positioning frame structure 2 is connected with the lower end of the compaction seat structure 3 through positioning cross rods 4 which are arranged in parallel, a compaction table 5 is arranged at the upper end of the compaction seat structure 3, a vibration pump assembly 6 connected with the bottom of the compaction table 5 is arranged on the compaction seat structure 3, a rotary type pressing mechanism 7 is arranged on one side of the upper end face of the compaction table 5, a movable locking assembly 8 for locking one end of the rotary type pressing mechanism 7 is arranged on the other side of the upper end face of the compaction table 5, and a cross rod mechanism 9 which is arranged in parallel with the positioning cross rods 4 is connected between the compaction table 5 and the positioning frame structure 2.

The positioning cross rod 4 is connected with the compaction seat structure 3 and the positioning frame structure 2, stress of the compaction seat structure 3 is diffused, the movable locking assembly 8 is matched with the locking rotary pressing mechanism 7 to press a die for loading materials, the positioning frame structure 2 and the compaction table 5 are connected through the cross rod mechanism 9, and stability of the compaction table 5 is ensured while vibration force is dispersed.

Wherein, locating rack structure 2 includes location base 21, and location base 21 passes through connecting screw 22 to be fixed on processing pedestal 1, and location base 21 upper end is equipped with locating rack 23, and locating rack 23 upper end is equipped with locking connecting cylinder 24, and location base 21 up end just is located locating rack 23 both sides and is equipped with the grafting location section of thick bamboo 25 that is used for grafting location horizontal pole 4.

The plug-in positioning cylinder 25 is used for plug-in positioning of the cross rod mechanism 9, the locking connecting cylinder 24 is used for plugging in one end of the positioning cross rod 4, and the upper end of the locking connecting cylinder 24 is provided with a tightening screw rod for locking the positioning cross rod 4.

Visibly, the cross bar mechanism 9 includes connecting cross bars 91 that are parallel to each other, one end of the connecting cross bars 91 is inserted into an insertion tube 92 at the bottom of the compaction table 5, and the other ends of the connecting cross bars 91 are connected through a connecting rod 93, the connecting rod 93 is inserted into the locking connecting tube 24, and a locking screw 94 is arranged at the upper end of the locking connecting tube 24, and a locking hole 95 corresponding to the locking screw 94 is arranged on the connecting rod 93.

The connection of the cross bar mechanism 9 to the spacer structure 2 is mainly used to ensure stability to the tapping table 5.

Further, the tap seat structure 3 comprises a connecting base 31, an installing cylinder body 32 which is vertically arranged is arranged on the connecting base 31, plug-in connecting cylinders 33 which can be used for inserting the positioning cross rod 4 are arranged on two sides of the installing cylinder body 32 and are arranged in the installing cylinder body 32, and one end of the damping connecting rod 34 is connected with the tap table 5.

The damping link 34 can be automatically lifted and lowered along with the action of the vibration pump assembly 6 to prevent damage caused by rigid vibration.

Specifically, the compaction table 5 includes a vibration base 51, a placement platform 52 attached to each other is installed at the upper end of the vibration base 51, and the above-mentioned rotary pressing mechanism 7 and the movable locking assembly 8 are all disposed on the placement platform 52.

The rotatable compression bar is arranged on the object placing platform 52 and used for clamping one end of the compression frame 75.

Still further, the rotary pressing mechanism 7 includes a symmetrically disposed longitudinal connecting rod 71, a positioning sleeve 72 is sleeved on the longitudinal connecting rod 71, a plug connection portion 73 is disposed on one side of the positioning sleeve 72, a pressing frame 75 is connected to the plug connection portion 73 through a positioning plug rod 74, and a positioning screw 76 is disposed at one end of the pressing frame 75 away from the plug connection portion 73.

The mold for loading the sand material is mainly pressed by the pressing frame 75.

Obviously, movable locking assembly 8 includes unable adjustment base 81, is equipped with locking post 82 on the unable adjustment base 81, and locking post 82 middle part is equipped with the activity and leads to groove 83, is connected with arc through locating connection pole 89 in the activity leads to groove 83 and compresses tightly structure 84, and locking post 82 one side is equipped with locking limit 85, locking post 82 up end is equipped with the arc constant head tank 86 that corresponds the setting with above-mentioned positioning screw 76.

When the pressing frame 75 presses the mold loaded with the sand-like material, the positioning screw 76 falls into the arc-shaped positioning groove 86, and the arc-shaped pressing portion 841 is rotated to press the positioning screw 76, thereby realizing positioning of one end of the pressing frame 75.

In detail, the arc pressing structure 84 includes an arc pressing portion 841 having one end rotatably connected to the positioning connection rod 89, and an operation lever 842 is connected to the other end of the arc pressing portion 841.

Further, the lower end of the locking column 82 is penetrated through the lower end face of the compaction table 5, a damping spring 87 is sleeved at one end of the locking column 82, which is positioned on the lower end face of the compaction table 5, and a limit nut 88 for limiting the damping spring 87 is arranged on the locking column 82.

Preferably, the vibration pump assembly 6 comprises a vibration pump 61 arranged on one side of the mounting cylinder 32, a mounting bracket 62 is arranged on the other side of the mounting cylinder 32, a vibration roller 63 is arranged on the mounting bracket 62, and the upper end surface of the vibration roller 63 is mutually abutted against the bottom of the compaction table 5.

The vibration roller 63 is a centrifugal roller and is driven by an external motor, when the vibration roller 63 rotates, the compaction table 5 is lifted synchronously, and in the lifting process, the vibration pump 61 vibrates to compact the rubber sand material.

In summary, the principle of this embodiment is as follows: through set up locating rack structure 2 on processing pedestal 1 to connect jolt ramming seat structure 3 and jolt ramming platform 5 respectively through location horizontal pole 4 and connection horizontal pole 91, ensure the stability of jolt ramming platform 5 in the vibration process, and compress tightly the mould that loads the sand material through setting up rotary hold-down mechanism 7 cooperation movable locking subassembly 8 on putting thing platform 52, carry out the jolt ramming to the sand material through vibrating pump cooperation vibration roller 63 at last.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.

Although terms such as the processing pedestal 1, the spacer structure 2, the positioning base 21, the connection screw 22, the positioning frame 23, the locking connection cylinder 24, the plug-in positioning cylinder 25, the tap-in base structure 3, the connection base 31, the mounting cylinder 32, the plug-in connection cylinder 33, the damping link 34, the positioning cross rod 4, the tap-in table 5, the vibration base 51, the placement platform 52, the vibration pump assembly 6, the vibration pump 61, the mounting bracket 62, the vibration roller 63, the rotary pressing mechanism 7, the longitudinal connecting rod 71, the positioning sleeve 72, the plug-in connection 73, the positioning plug-in rod 74, the pressing frame 75, the positioning screw 76, the movable locking assembly 8, the fixing base 81, the locking post 82, the movable through groove 83, the arc-shaped pressing structure 84, the arc-shaped pressing part 841, the operation hand lever 842, the locking limiting part 85, the arc-shaped positioning groove 86, the damping spring 87, the limiting nut 88, the positioning connecting rod 89, the cross rod mechanism 9, the connection cross rod 91, the plug-in cylinder 92, the locking screw 94, the locking hole 95, and the like are used more herein, the possibility of using other terms is not excluded. These terms are used merely for convenience in describing and explaining the nature of the utility model; they are to be interpreted as any additional limitation that is not inconsistent with the spirit of the present utility model.

Claims (10)

1. The utility model provides a cement mortar compaction platform, includes processing pedestal (1), processing pedestal (1) one end upside be equipped with locating rack structure (2) and the other end is equipped with compaction seat structure (3), locating rack structure (2) and compaction seat structure (3) lower extreme between link to each other through mutual parallel arrangement's location horizontal pole (4), its characterized in that, compaction seat structure (3) upper end be equipped with compaction platform (5), and be equipped with vibration pump (61) subassembly (6) that link to each other with compaction platform (5) bottom on compaction seat structure (3), compaction platform (5) up end one side be equipped with rotary compressing mechanism (7), and compaction platform (5) up end opposite side be equipped with movable locking subassembly (8) that are used for locking rotary compressing mechanism (7) one end, compaction platform (5) and locating rack structure (2) between link to each other through horizontal pole mechanism (9) with mutual parallel arrangement's of location horizontal pole (4).

2. The cement mortar compaction table according to claim 1, wherein the positioning frame structure (2) comprises a positioning base (21), the positioning base (21) is fixed on the processing pedestal (1) through a connecting screw (22), a positioning frame (23) is arranged at the upper end of the positioning base (21), a locking connecting cylinder (24) is arranged at the upper end of the positioning frame (23), and inserting positioning cylinders (25) for inserting positioning cross bars (4) are arranged on the upper end face of the positioning base (21) and positioned on two sides of the positioning frame (23).

3. The cement mortar compaction table according to claim 2, wherein the cross rod mechanism (9) comprises connecting cross rods (91) which are arranged in parallel, one end of each connecting cross rod (91) is inserted into an insertion cylinder (92) at the bottom of the compaction table (5), the other ends of the connecting cross rods (91) are connected through connecting rods (93), the connecting rods (93) are inserted into locking connecting cylinders (24), locking screw rods (94) are arranged at the upper ends of the locking connecting cylinders (24), and locking holes (95) which are arranged corresponding to the locking screw rods (94) are formed in the connecting rods (93).

4. The cement mortar compaction table according to claim 1, wherein the compaction seat structure (3) comprises a connecting base (31), a mounting cylinder (32) which is vertically arranged is arranged on the connecting base (31), plug-in connecting cylinders (33) which can be used for inserting the positioning cross rods (4) are arranged on the connecting base (31) and are positioned on two sides of the mounting cylinder (32), a telescopic damping connecting rod (34) is arranged in the mounting cylinder (32), and one end of the damping connecting rod (34) is connected with the compaction table (5).

5. The cement mortar compaction table according to claim 4, wherein the compaction table (5) comprises a vibration base (51), a mutually-attached object placing platform (52) is installed at the upper end of the vibration base (51), and the rotary compaction mechanism (7) and the movable locking assembly (8) are arranged on the object placing platform (52).

6. The cement mortar compaction table according to claim 1, wherein the rotary compaction mechanism (7) comprises symmetrically arranged longitudinal connecting rods (71), positioning sleeves (72) are sleeved on the longitudinal connecting rods (71), plug-in connection portions (73) are arranged on one sides of the positioning sleeves (72), compaction frame bodies (75) are connected to the plug-in connection portions (73) through positioning plug rods (74), and positioning screws (76) are arranged at one ends, far away from the plug-in connection portions (73), of the compaction frame bodies (75).

7. The cement mortar compaction table according to claim 6, wherein the movable locking assembly (8) comprises a fixed base (81), a locking column (82) is arranged on the fixed base (81), a movable through groove (83) is arranged in the middle of the locking column (82), an arc-shaped compaction structure (84) is connected in the movable through groove (83) through a positioning connecting rod (89), a locking limit part (85) is arranged on one side of the locking column (82), and an arc-shaped positioning groove (86) corresponding to the positioning screw (76) is arranged on the upper end face of the locking column (82).

8. The cement mortar compaction table according to claim 7, wherein the arc compaction structure (84) comprises an arc compaction part (841) with one end rotatably connected with the positioning connecting rod (89), and the other end of the arc compaction part (841) is connected with an operation hand lever (842).

9. The cement mortar compaction table according to claim 8, wherein the lower end of the locking column (82) is arranged on the lower end face of the compaction table (5) in a penetrating manner, a damping spring (87) is sleeved at one end of the locking column (82) located on the lower end face of the compaction table (5), and a limit nut (88) for limiting the damping spring (87) is arranged on the locking column (82).

10. The cement mortar compaction table according to claim 4, wherein the vibration pump (61) assembly (6) comprises a vibration pump (61) arranged on one side of the installation cylinder (32), the other side of the installation cylinder (32) is provided with an installation bracket (62), the installation bracket (62) is provided with a vibration roller (63), and the upper end surface of the vibration roller (63) is mutually abutted against the bottom of the compaction table (5).