CN220322870U

CN220322870U - Cement mortar test body shaping compaction equipment

Info

Publication number: CN220322870U
Application number: CN202321839668.6U
Authority: CN
Inventors: 盛福利; 张磊; 史展; 王艳茹
Original assignee: Jinan Qisen Construction Engineering Quality Inspection Co ltd
Current assignee: Jinan Qisen Construction Engineering Quality Inspection Co ltd
Priority date: 2023-07-13
Filing date: 2023-07-13
Publication date: 2024-01-09
Anticipated expiration: 2033-07-13

Abstract

The utility model discloses cement mortar test body forming compaction equipment which comprises a vibrating device and a die clamping device, wherein the die clamping device is fixedly arranged at the right upper end of the vibrating device, the die clamping device vertically vibrates on the vibrating device, a die is arranged in the die clamping device, and the die is clamped by the die clamping device and vibrates along with the vertical vibration of the die clamping device. According to the utility model, the die clamping device is arranged right above the vibrating device, the die clamping device cannot fall off, cement mortar in the die is compacted up and down in the die, and the compaction quality is ensured.

Description

Cement mortar test body shaping compaction equipment

Technical Field

The utility model relates to the technical field of cement strength inspection, in particular to a cement mortar test body forming compaction device.

Background

In the prior art, for example, the following Chinese patent application No. 201811154917.1 entitled "Cement mortar compaction table" discloses: the die clamping device is clamped on a connecting rod which is in pivot connection with the supporting seat, and the die clamping device is driven to vibrate up and down through cam rotation, so that cement mortar in the die is compacted.

Although the operation method can tap cement mortar, as the cam continuously impacts the die clamping device, the die clamping device is easy to fall off on the connecting rod, and the die clamping device is arranged at the tail end of the connecting rod, when the die clamping device is impacted by the cam, the die clamping device can lift in a fan shape, so that the cement mortar in the die can vibrate obliquely, and the tapping effect is affected.

Disclosure of Invention

The utility model provides a cement mortar test body forming compaction device, which aims to solve the technical problems that a die clamping device is clamped on a connecting rod and is easy to fall off, and the compaction effect is influenced by fan-shaped lifting of the die clamping device.

The utility model is realized by the following measures:

the utility model provides a cement mortar test body shaping compaction equipment, includes vibrating device and mould clamping device, the mould clamping device is fixed to be set up the just upper end of vibrating device, the mould clamping device is in vertical vibration on the vibrating device, be provided with the mould in the mould clamping device, the mould is pressed from both sides tightly and vibrates along with mould clamping device's vertical vibration by mould clamping device.

Preferably, the vibrating device comprises a bottom plate, a guide column is arranged on the bottom plate, a lifting assembly is arranged on the guide column in a sliding mode, an eccentric shaft is arranged at the bottom of the lifting assembly, the eccentric shaft is in butt joint with the lifting assembly, a driving assembly is arranged at the rear end of the bottom plate, and the driving assembly controls the eccentric shaft to rotate so as to drive the lifting assembly to vibrate up and down.

Preferably, two fixing seats are respectively arranged on the front and the rear of the bottom plate, the guide posts are arranged on the fixing seats, a blocking plate is arranged at the top of each guide post, and the blocking plate is arranged at the upper end of the lifting assembly.

Preferably, the lifting assembly comprises a lifting plate, the lifting plate is arranged on the guide posts, a hanging frame is arranged at the bottom of the lifting plate, a top wheel is arranged in the hanging frame, a base is arranged between the guide posts, the base is arranged on the bottom plate, an eccentric shaft is arranged in the base in a pivot mode, the eccentric shaft is in butt joint with the top wheel, connecting plates are arranged on two sides of the bottom of the lifting plate, connecting columns are arranged on the bottom plate, and springs are arranged between the connecting columns and the connecting plates.

Preferably, the driving assembly comprises a motor base, the motor base is arranged on the bottom plate, a motor is arranged on the motor base, a synchronous pulley A is arranged on an output shaft of the motor, a synchronous pulley B is arranged on the eccentric shaft, the synchronous pulley B is arranged on the outer side of one of the bases, and a synchronous belt is arranged between the synchronous pulley B and the synchronous pulley A.

Preferably, the lifting plate is provided with a bearing seat, and the bearing seat is provided with the mold clamping device.

Preferably, the die clamping device comprises a substrate, the substrate with bearing seat fixed connection, the substrate rear side symmetry is provided with two fixed sleeves, two the pivot is provided with the clamp plate on the fixed sleeve, the clamp plate front end is provided with columniform connecting rod, the substrate anterior segment is provided with the stand, the stand top be provided with the recess A that the connecting rod corresponds, be provided with the opening on the stand, be provided with the pin in the opening, the pivot is provided with the cover on the pin, be provided with recess B in the cover, recess B diameter equals the diameter of connecting rod, cover one end with pin pivoted joint, the other end with the up end bolted connection of stand.

Preferably, the rails are arranged at the front end and the rear end of the substrate, two limit rods are symmetrically arranged in the rails, two limit rods are arranged at the two sides of the die, a screw rod is arranged between the two limit rods, external threads at the two ends of the screw rod are opposite in rotation direction, internal threads corresponding to the external threads of the screw rod are arranged on the limit rods, the two ends of the screw rod are arranged on the base, a small motor is arranged at one end of the screw rod, the small motor is arranged on the substrate, and the small motor is arranged at the outer side of one base.

Preferably, a gasket is arranged at the upper end of the die.

The utility model has the beneficial effects that:

1. according to the utility model, the die clamping device is arranged right above the vibrating device, the die clamping device cannot fall off, cement mortar in the die is compacted up and down in the die, and the compaction quality is ensured.

2. Cement mortar is contained in the die, a gasket is added on the die, a small amount of cement and mortar in the vibration process are prevented from vibrating and falling from the die, the die is clamped by the die clamping device, the die vibrates up and down along with the vibration device, the die clamping device cannot fall off on the vibration device, and the vibration of the cement mortar is guaranteed by up and down vibration.

3. The guide post can guarantee that lifting assembly goes up and down vertically, and drive assembly control eccentric shaft is rotatory, and the eccentric shaft is rotatory to go up and down along lifting assembly, and the barrier plate is used for preventing lifting assembly and breaks away from the upper end of guide bar.

4. The top wheel is lifted up and down along with the contour line of the eccentric shaft, so that the lifting plate is driven to lift along the guide post, and the spring has a buffering function and can prevent noise from being generated in the lifting process of the lifting plate. And starting the motor, wherein the output shaft of the motor rotates to drive the synchronous pulley A to rotate, and under the action of the synchronous belt, the synchronous pulley B rotates to drive the eccentric shaft to rotate.

5. Base plate and bearing seat fixed connection are with mould clamping device and lifter plate fixed connection, can effectually prevent that mould clamping device from dropping from the lifter plate, and the clamp plate pivot sets up on fixed cover, and the clamp plate can overturn, and the connecting rod sets up in recess A, can improve the stability of connecting rod, overlaps the cover on the connecting rod to fix the cover with the bolt, further improve the stability of connecting rod, finally with the tight pressure of clamp plate on the mould.

6. The rail can ensure that the limiting rods do linear motion, and external threads with opposite rotation directions are arranged at the two ends of the screw rod, so that when the screw rod rotates, the two limiting rods do reverse motion, and when the two limiting rods are close to each other, the die is clamped, and the die is ensured to be arranged under the pressing plate.

7. The gasket is arranged on the die, after the pressing plate is fixed, the pressing plate is directly pressed on the die through the gasket, the gasket can prevent cement mortar in the die from vibrating out of the die, and damage to the die caused by the pressing plate can be prevented.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic view of the structure of the vibration device according to the present utility model.

Fig. 3 is a schematic view of the structure of one orientation of the vibration device.

Fig. 4 is a schematic view of the structure of another orientation of the vibration device.

Fig. 5 is a schematic view of the structure of the mold clamping device according to the present utility model.

FIG. 6 is a schematic view of the structure of the mold clamping device in one orientation.

Fig. 7 is a partial enlarged view at a of fig. 6.

Fig. 8 is a partial enlarged view at B of fig. 6.

Wherein, the reference numerals are as follows: 1. a vibration device; 11. a bottom plate; 12. a guide post; 13. a lifting assembly; 131. a lifting plate; 132. a hanging rack; 133. a top wheel; 134. a base; 135. a connecting plate; 136. a connecting column; 137. a spring; 138. a bearing seat; 14. an eccentric shaft; 15. a drive assembly; 151. a motor base; 152. a motor; 153. a synchronous belt wheel A;154. a synchronous belt wheel B;155. a synchronous belt; 16. a fixing seat; 17. a blocking plate; 2. a mold clamping device; 21. a substrate; 22. a fixed sleeve; 23. a pressing plate; 231. a connecting rod; 24. a column; 241. a groove A;242. a notch; 243. a pin; 25. a cover sleeve; 251. a groove B;26. a track; 27. a limit rod; 28. a screw rod; 29. a base; 210. a small motor; 211. a gasket; 3. and (5) a mold.

Detailed Description

In order to clearly illustrate the technical characteristics of the scheme, the scheme is explained below through a specific embodiment.

Referring to fig. 1, a cement mortar test body forming compaction device comprises a vibrating device 1 and a mold clamping device 2, and is characterized in that the mold clamping device 2 is fixedly arranged at the right upper end of the vibrating device 1, the mold clamping device 2 vertically vibrates on the vibrating device 1, a mold 3 is arranged in the mold clamping device 2, and the mold 3 is clamped by the mold clamping device 2 and vibrates along with the vertical vibration of the mold clamping device 2.

Cement mortar is contained in the die, a gasket is added on the die, a small amount of cement and mortar in the vibration process are prevented from vibrating and falling from the die, the die is clamped by the die clamping device, the die vibrates up and down along with the vibration device, the die clamping device cannot fall off on the vibration device, and the vibration of the cement mortar is guaranteed by up and down vibration.

Referring to fig. 2, the vibration device 1 comprises a bottom plate 11, a guide post 12 is arranged on the bottom plate 11, a lifting assembly 13 is arranged on the guide post 12 in a sliding manner, an eccentric shaft 14 is arranged at the bottom of the lifting assembly 13, the eccentric shaft 14 is in butt joint with the lifting assembly 13, a driving assembly 15 is arranged at the rear end of the bottom plate 11, and the driving assembly 15 controls the eccentric shaft 14 to rotate so as to drive the lifting assembly 13 to vibrate up and down.

The guide post can ensure that the lifting assembly vertically lifts, the driving assembly controls the eccentric shaft to rotate, and the eccentric shaft rotates to lift up and down against the lifting assembly.

Referring to fig. 3, two fixing seats 16 are respectively provided in front and rear of the base plate 11, guide posts 12 are provided on the fixing seats 16, a blocking plate 17 is provided on the top of the guide posts 12, and the blocking plate 17 is provided at the upper end of the lifting assembly 13.

The blocking plate is used for preventing the lifting assembly from being separated from the upper end of the guide rod.

Referring to fig. 3 and 4, the lifting assembly 13 includes a lifting plate 131, the lifting plate 131 is disposed on the guide posts 12, a hanging frame 132 is disposed at the bottom of the lifting plate 131, a top wheel 133 is disposed in the hanging frame 132, a base 134 is disposed between the guide posts 12, the base 134 is disposed on the bottom plate 11, an eccentric shaft 14 is disposed in the base 134 in a pivot manner, the eccentric shaft 14 is abutted to the top wheel 133, connecting plates 135 are disposed at two sides of the bottom of the lifting plate 131, connecting posts 136 are disposed on the bottom plate 11, and springs 137 are disposed between the connecting posts 136 and the connecting plates 135.

The top wheel is lifted up and down along with the contour line of the eccentric shaft, so that the lifting plate is driven to lift along the guide post, and the spring has a buffering function and can prevent noise from being generated in the lifting process of the lifting plate.

Referring to fig. 3, the driving assembly 15 includes a motor base 151, the motor base 151 is disposed on the base plate 11, a motor 152 is disposed on the motor base 151, a synchronous pulley a153 is disposed on an output shaft of the motor 152, a synchronous pulley B154 is disposed on the eccentric shaft 14, the synchronous pulley B154 is disposed outside one of the bases 134, and a synchronous belt 155 is disposed between the synchronous pulley B154 and the synchronous pulley a 153.

And starting the motor, wherein the output shaft of the motor rotates to drive the synchronous pulley A to rotate, and under the action of the synchronous belt, the synchronous pulley B rotates to drive the eccentric shaft to rotate.

Referring to fig. 3, a bearing seat 138 is provided on the lifter plate 131, and a mold clamping device 2 is provided on the bearing seat 138.

Referring to fig. 5 and 8, the mold clamping device 2 includes a base plate 21, the base plate 21 is fixedly connected with a bearing seat 138, two fixing sleeves 22 are symmetrically arranged at the rear side of the base plate 21, a pressing plate 23 is pivotally arranged on the two fixing sleeves 22, a cylindrical connecting rod 231 is arranged at the front end of the pressing plate 23, a stand column 24 is arranged at the front section of the base plate 21, a groove a241 corresponding to the connecting rod 231 is arranged at the top of the stand column 24, a gap 242 is arranged on the stand column, a pin 243 is arranged in the gap, a cover sleeve 25 is pivotally arranged on the pin 243, a groove B251 is arranged in the cover sleeve, the diameter of the groove B is equal to the diameter of the connecting rod, one end of the cover sleeve is pivotally connected with the pin 243, and the other end of the cover sleeve is in bolted connection with the upper end face of the stand column.

Base plate and bearing seat fixed connection are with mould clamping device and lifter plate fixed connection, can effectually prevent that mould clamping device from dropping from the lifter plate, and the clamp plate pivot sets up on fixed cover, and the clamp plate can overturn, and the connecting rod sets up in recess A, can improve the stability of connecting rod, overlaps the cover on the connecting rod to fix the cover with the bolt, further improve the stability of connecting rod, finally with the tight pressure of clamp plate on the mould.

Referring to fig. 6 and 7, rails 26 are provided at front and rear ends of the base plate 21, two limit rods 27 are symmetrically provided in the rails 26, two limit rods 27 are provided at both sides of the mold 3, a screw rod 28 is provided between the two limit rods, external threads at both ends of the screw rod 28 are oppositely threaded, internal threads corresponding to the external threads of the screw rod 28 are provided on the limit rods, both ends of the screw rod 28 are provided on the bases 29, one end of the screw rod 28 is provided with a small motor 210, the small motor is provided on the base plate 21, and the small motor 210 is provided at the outer side of one of the bases 29.

The rail can ensure that the limiting rods do linear motion, and external threads with opposite rotation directions are arranged at the two ends of the screw rod, so that when the screw rod rotates, the two limiting rods do reverse motion, and when the two limiting rods are close to each other, the die is clamped, and the die is ensured to be arranged under the pressing plate.

The upper end of the die 3 is provided with a gasket 211.

The gasket is arranged on the die, after the pressing plate is fixed, the pressing plate is directly pressed on the die through the gasket, the gasket can prevent cement mortar in the die from vibrating out of the die, and damage to the die caused by the pressing plate can be prevented.

The application process of the utility model comprises the following steps: cement mortar is contained in the die, the pressing plate is fixed, the motor is started, the motor output shaft rotates to drive the eccentric shaft to rotate, the eccentric shaft is abutted against the top wheel, the top wheel moves along with the outline of the eccentric shaft, the lifting plate is driven to lift along the guide rod, and finally the die is driven to lift up and down, so that cement mortar in the die is compacted.

The technical features of the present utility model that are not described in the present utility model may be implemented by or using the prior art, and are not described in detail herein, but the above description is not intended to limit the present utility model, and the present utility model is not limited to the above examples, but is also intended to be within the scope of the present utility model by those skilled in the art.

Claims

1. The utility model provides a cement mortar test body shaping compaction equipment, includes vibrating device (1) and mould clamping device (2), its characterized in that, mould clamping device (2) are fixed to be set up directly over vibrating device (1), mould clamping device (2) are in vertical vibration on vibrating device (1), be provided with mould (3) in mould clamping device (2), mould (3) are pressed from both sides tightly by mould clamping device (2) and vibrate along with the vertical vibration of mould clamping device (2).

2. The cement mortar test body forming compaction equipment according to claim 1, wherein the vibration device (1) comprises a base plate (11), a guide post (12) is arranged on the base plate (11), a lifting assembly (13) is arranged on the guide post (12) in a sliding mode, an eccentric shaft (14) is arranged at the bottom of the lifting assembly (13), the eccentric shaft (14) is abutted to the lifting assembly (13), a driving assembly (15) is arranged at the rear end of the base plate (11), and the driving assembly (15) controls the eccentric shaft (14) to rotate so as to drive the lifting assembly (13) to vibrate up and down.

3. The cement mortar sample forming compaction equipment according to claim 2, wherein two fixing seats (16) are respectively arranged on the front and rear of the bottom plate (11), the guide posts (12) are arranged on the fixing seats (16), a blocking plate (17) is arranged at the top of each guide post (12), and the blocking plate (17) is arranged at the upper end of the lifting assembly (13).

4. The cement mortar test body forming compaction equipment according to claim 3, wherein the lifting assembly (13) comprises a lifting plate (131), the lifting plate (131) is arranged on the guide post (12), a hanging frame (132) is arranged at the bottom of the lifting plate (131), a top wheel (133) is arranged in the hanging frame (132), a base (134) is arranged between the guide posts (12), the base (134) is arranged on the bottom plate (11), the eccentric shaft (14) is arranged in the base (134) in a pivot manner, the eccentric shaft (14) is in butt with the top wheel (133), connecting plates (135) are arranged on two sides of the bottom of the lifting plate (131), connecting posts (136) are arranged on the bottom plate (11), and springs (137) are arranged between the connecting posts (136) and the connecting plates (135).

5. The cement mortar test body forming compaction equipment according to claim 4, wherein the driving assembly (15) comprises a motor base (151), the motor base (151) is arranged on the bottom plate (11), a motor (152) is arranged on the motor base (151), a synchronous pulley A (153) is arranged on an output shaft of the motor (152), a synchronous pulley B (154) is arranged on the eccentric shaft (14), the synchronous pulley B (154) is arranged on the outer side of one of the bases (134), and a synchronous belt (155) is arranged between the synchronous pulley B (154) and the synchronous pulley A (153).

6. The cement mortar test body molding compaction equipment according to claim 4, wherein a bearing seat (138) is arranged on the lifting plate (131), and the mold clamping device (2) is arranged on the bearing seat (138).

7. The cement mortar test body forming compaction equipment according to claim 6, wherein the mold clamping device (2) comprises a base plate (21), the base plate (21) is fixedly connected with the bearing seat (138), two fixing sleeves (22) are symmetrically arranged on the rear side of the base plate (21), a pressing plate (23) is pivotally arranged on the two fixing sleeves (22), a cylindrical connecting rod (231) is arranged at the front end of the pressing plate (23), a stand column (24) is arranged at the front section of the base plate (21), a groove A (241) corresponding to the connecting rod (231) is arranged at the top of the stand column (24), a notch (242) is formed in the stand column, a pin (243) is arranged in the notch, a cover sleeve (25) is pivotally arranged on the pin (243), a groove B (251) is arranged in the cover sleeve, the diameter of the groove B is equal to that of the connecting rod, one end of the cover sleeve is pivotally connected with the pin (243), and the other end of the cover sleeve is connected with the upper end face of the stand column.

8. The cement mortar sample forming compaction equipment according to claim 7, wherein rails (26) are arranged at the front end and the rear end of the base plate (21), two limiting rods (27) are symmetrically arranged in the rails (26), two limiting rods (27) are arranged at the two sides of the die (3), a screw rod (28) is arranged between the two limiting rods, external threads at the two ends of the screw rod (28) are opposite in rotation direction, internal threads corresponding to the external threads of the screw rod (28) are arranged on the limiting rods, the two ends of the screw rod (28) are arranged on the bases (29), a small motor (210) is arranged at one end of the screw rod (28), the small motor is arranged on the base plate (21), and the small motor (210) is arranged at the outer side of one of the bases (29).

9. The cement mortar sample forming compaction device according to claim 8, wherein a gasket (211) is arranged at the upper end of the die (3).