CN221212177U - Automatic mortar pouring sample manufacturing equipment - Google Patents

Abstract

The application relates to automatic mortar pouring sample manufacturing equipment which comprises a pouring die for pouring mortar, a transverse driving mechanism and a vertical driving mechanism for driving the pouring die, wherein the pouring die comprises an upper die and a lower die, the transverse driving mechanism can drive the lower die to transversely slide, and the vertical driving mechanism can drive the upper die to move up and down. The upper die comprises a pouring panel for pouring mortar, a plurality of pouring holes are formed in the pouring panel, and the mortar can be poured in the pouring holes; the lower die comprises a support panel, a pouring block is arranged on the support panel, a signal receiver is fixedly arranged at the lower end of the support panel, the automatic mortar pouring sample manufacturing equipment further comprises a base, a signal transmitter is arranged on the base, and a signal transmitted by the signal transmitter can be received by the signal receiver so that the vertical driving mechanism starts to operate. The application has the function of automatically manufacturing the mortar sample.

Description

Automatic mortar pouring sample manufacturing equipment

Technical Field

The application relates to the field of mortar pouring, in particular to automatic mortar pouring sample manufacturing equipment.

Background

In the field of mortar pouring, before the mortar is used, the qualification of the tensile bonding strength of the mortar needs to be detected according to the standard requirements of building material industry. When the mortar is detected, a mold is needed to be used for manufacturing the sample, and when the mold is used for manufacturing the sample, manual operation is usually used, and the manual operation mode is often too long in time consumption and too low in efficiency.

Disclosure of utility model

In order to improve the efficiency of casting mortar sample manufacture, the application provides automatic mortar casting sample manufacture equipment.

The application provides automatic mortar pouring sample manufacturing equipment, which adopts the following technical scheme:

The utility model provides an automatic sample preparation equipment is pour to mortar, includes the base and pours the piece, be provided with pouring mould, horizontal actuating mechanism and vertical actuating mechanism on the base, pouring mould includes mould and lower mould, go up the mould with vertical actuating mechanism fixed connection, the lower mould with horizontal actuating mechanism fixed connection, it sets up to pour the piece on the lower mould.

Through adopting above-mentioned technical scheme, through setting up to the base, the base can play the supporting role, through setting up to pouring the mould, pouring the mould and including last mould and lower mould, can pour the preparation to pouring the sample through last mould, can play fixed and supporting role to pouring the piece through the lower mould, through setting up transverse driving mechanism and vertical driving mechanism, transverse driving mechanism and lower mould fixed connection, transverse driving mechanism can make the lower mould transversely slide to help carrying out the removal operation to the lower mould; through setting up vertical actuating mechanism, vertical actuating mechanism and last mould fixed connection, vertical actuating mechanism can drive the mould and reciprocate, and horizontal actuating mechanism and vertical actuating mechanism can replace the manual work to the removal operation of last mould and lower mould to help improving work efficiency.

In a specific embodiment, the upper die comprises a pouring panel, and the pouring panel is provided with through holes to form pouring holes.

Through adopting the technical scheme, the pouring panel is arranged on the upper die, and the pouring panel can play a limiting role on the pouring block when in use, so that the pouring block is tightly attached to the pouring panel, leakage of mortar during pouring is prevented, and the preparation of a mortar sample is facilitated; the placement of the pouring holes helps shape the exterior shape of the poured sample.

In a specific implementation manner, the lower die comprises a support frame and a support panel, wherein the support frame is fixedly connected with the support panel, and the pouring block is arranged on the support panel.

Through adopting above-mentioned technical scheme, through the setting to the support frame, support frame and support panel fixed connection, the support frame can play support and fixed action to support panel.

In a specific implementation manner, the transverse driving mechanism comprises a linear guide sliding table, the linear guide sliding table comprises a sliding block, a retaining block and a sliding rail, the retaining block is fixedly arranged on the base, the sliding rail is fixedly arranged on the retaining block, one end of the sliding block is in sliding connection with the sliding rail, and the other end of the sliding block is fixedly connected with the supporting frame.

Through adopting the technical scheme, through the arrangement of the linear guide rail sliding table, the linear guide rail sliding table can realize the linear sliding effect, and the retaining block is fixedly arranged on the base, so that the linear guide rail can be kept horizontal, and the smooth effect is realized on the sliding process; through the setting to slider and slide rail, the slider can slide along the slide rail, through with slider and support frame fixed connection, can make the linear guide slide table carry out the removal on the horizontal direction to the lower mould, helps realizing the automatic conveying to the lower mould.

In a specific implementation mode, the device further comprises a transmission assembly, wherein the transmission assembly comprises a cross rod and a push rod, one end of the sliding block is in sliding connection with the sliding rail, and the other end of the sliding block is fixedly connected with the supporting frame.

Through adopting above-mentioned technical scheme, through the setting of drive assembly, drive assembly can play the effect of transmission power.

In a specific embodiment, the transverse driving mechanism further comprises a pushing cylinder, wherein the pushing cylinder comprises a piston rod, and the piston rod is fixedly connected with the push rod.

Through adopting above-mentioned technical scheme, through the setting to pushing the cylinder, pushing the cylinder and can providing power to linear guide sliding table, make linear guide sliding table can drive the lower mould and slide, replace the manual work to operate the lower mould, and then can improve the efficiency of sample preparation.

In a specific embodiment, the vertical driving mechanism comprises a lifting cylinder, one end of the lifting cylinder is fixedly arranged on the base, and the other end of the lifting cylinder is fixedly connected with the pouring panel.

Through foretell technical scheme, through the setting to the lift cylinder, the lift cylinder sets up with pouring the panel is fixed, can make pouring the panel and reciprocate to be convenient for to the preparation of sample, improve work efficiency.

In a specific embodiment, the base is provided with a signal transmitter, and the support panel is fixedly provided with a signal receiver.

Through the technical scheme, through setting up signal transmitter, signal transmitter can cooperate with the signal receiver and realize the automatic control to the drive.

In summary, the present application includes at least one of the following beneficial technical effects:

1. Through the arrangement of the transverse driving mechanism and the vertical driving mechanism, the transverse driving mechanism is fixedly connected with the lower die, the transverse driving mechanism comprises a linear guide rail sliding table and a pushing cylinder, and the transverse driving mechanism can drive the lower die to transversely slide; the vertical driving mechanism is fixedly connected with the upper die and comprises a lifting cylinder, the upper die can be driven to move up and down, and the vertical driving mechanism is matched with the vertical driving mechanism together to replace manual operation on the upper die and the lower die, so that the technical effect of improving efficiency is achieved.

2. Through setting up signal receiver and signal transmitter, when signal receiver received the signal from signal transmitter, vertical actuating mechanism began to operate to can play automatic control's technical effect.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present application;

FIG. 2 is a schematic diagram showing a specific structure of a vertical driving mechanism and an upper die;

FIG. 3 is a schematic diagram showing a specific structure of a lateral driving mechanism and a lower die;

fig. 4 is a partial enlarged view showing the positions of a signal transmitter and a signal receiver.

Reference numerals illustrate: 1. a lateral drive mechanism; 2. pouring a mold; 3. a vertical driving mechanism; 4. a transmission assembly; 41. a cross bar; 42. a push rod; 5. a base; 11. a linear guide rail sliding table; 111. a slide block; 112. a holding block; 113. a slide rail; 12. a pushing cylinder; 121. a piston rod; 21. an upper die; 22. a lower die; 211. pouring a panel; 212. pouring holes; 221. a support frame; 222. a support panel; 223. a signal receiver; 224. pouring blocks; 31. a lifting cylinder; 51. a signal transmitter.

Detailed Description

The application is described in further detail below with reference to fig. 1-4.

The embodiment of the application discloses automatic mortar pouring sample manufacturing equipment. Referring to fig. 1 and 2, the casting mold comprises a base 5, wherein a casting mold 2 is arranged on the base 5, the casting mold 2 comprises an upper mold 21, the upper mold 21 comprises a casting panel 211, the casting panel 211 is rectangular, a plurality of through holes are formed in the middle of the casting panel 211 to form casting holes 212, and the casting holes 212 are arranged on the casting panel 211 in a line shape. One end of the pouring panel 211, which is close to the base 5, is fixedly connected with a vertical driving assembly 3, the vertical driving assembly 3 comprises a plurality of lifting cylinders 31, and in the embodiment of the application, 4 lifting cylinders 31 are arranged; one end of the lifting cylinder 31 is fixedly connected with the pouring panel 211, the other end of the lifting cylinder 31 is fixedly arranged on the base 5, and the lifting cylinder 31 can drive the pouring panel 211 to move along the vertical direction with the base 5.

Referring to fig. 1 and 3, a lateral driving mechanism 1 is provided on a base 5, and the lateral driving mechanism 1 includes a linear guide rail slide 11 and a pushing cylinder 12, and in this embodiment, the linear guide rail slide 11 is provided with two. A transmission assembly 4 is connected between the linear guide rail sliding table 11 and the pushing cylinder 12, and the transmission assembly 4 comprises a cross rod 41 and a push rod 42, and the cross rod 41 is fixedly connected with the push rod 42. The linear guide rail sliding table 11 comprises a holding block 112, wherein the holding block 112 is fixedly arranged on the base 5, one end of the holding block 112 is provided with a through hole, and a push rod 42 is slidably arranged in the through hole; the holding block 112 is fixedly provided with a sliding rail 113, the sliding rail 113 is provided with a sliding block 111 in a sliding manner, and one end of the sliding block 111 is fixedly connected with the push rod 42. The pushing cylinder 12 comprises a piston rod 121, and the piston rod 121 is fixedly connected with the cross rod 41. When the pushing cylinder 12 is in operation, the two sliders 111 can be simultaneously driven by the cross bar 41, so that the sliders 111 slide on the slide rails 113. The lower die 22 comprises a support frame 221 and a support panel 222, the support panel 222 is provided with a pouring block 224, the support panel 222 is fixedly connected with the support frame 221, one end of the support frame 221 away from the support panel 222 is fixedly connected with the sliding block 111, and the sliding block 111 can drive the lower die 22 to slide along the direction parallel to the base 5.

Referring to fig. 4, a signal emitter 51 is fixedly provided at a middle position of the base 5, a signal receiver 223 is fixedly provided at one end of the support panel 222 near the base 51, when the support panel 222 is moved to a target position by the lateral driving mechanism 1, the signal receiver 223 is aligned with the signal emitter 51, and the signal receiver 223 can receive a signal from the signal emitter 51, so that the signal is transmitted to the controller, and the controller automatically controls the lifting cylinder 31 to start the lifting cylinder 31.

The implementation principle of the embodiment of the application is as follows: after the pouring block 224 is placed on the support panel 222, the device is started, the pushing cylinder 12 drives the sliding block 111 to slide, the sliding block 111 drives the support panel 222 to move right below the pouring panel 211, when the support panel 222 moves right below the pouring panel 211, the support panel 222 moves to a target area, at the moment, the signal receiver 223 is aligned with the signal transmitter 51, the signal receiver 223 receives a signal from the signal transmitter 51 and then is transmitted to the controller, the controller controls the pushing cylinder 12 to stop working and simultaneously controls the vertical driving mechanism 3 to start running, the lifting cylinder 31 drives the pouring panel 211 to move towards the direction of the support panel 222 until the pouring block 224 placed on the support panel 222 is tightly attached, when the pouring block 224 is tightly attached to the pouring panel 211, a plurality of pouring holes 212 can be covered by the pouring block 224, a plurality of cavities are formed jointly, after mortar is poured into the cavity formed by the pouring holes 212 and the pouring block 224, and the cavity is left for a period of time, after the standing time is finished, the vertical driving mechanism 3 is automatically lifted towards a direction away from the support panel 222, so that a mortar sample is left on the pouring block 224, and finally, a mortar sample is manufactured.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (8)

1. An automatic mortar pouring sample preparation equipment which characterized in that: including base (5) and pouring piece (224), be provided with pouring mould (2), horizontal actuating mechanism (1) and vertical actuating mechanism (3) on base (5), pouring mould (2) are including last mould (21) and lower mould (22), go up mould (21) with vertical actuating mechanism (3) fixed connection, lower mould (22) with horizontal actuating mechanism (1) fixed connection, pouring piece (224) set up on lower mould (22).

2. An automatic mortar casting sample making apparatus according to claim 1, wherein: the upper die (21) comprises a pouring panel (211), and through holes are formed in the pouring panel (211) to form pouring holes (212).

3. An automatic mortar casting sample making apparatus according to claim 1, wherein: the lower die (22) comprises a supporting frame (221) and a supporting panel (222), the supporting frame (221) is fixedly connected with the supporting panel (222), and the pouring block (224) is arranged on the supporting panel (222).

4. An automatic mortar casting sample making apparatus according to claim 3, wherein: the transverse driving mechanism (1) comprises a linear guide rail sliding table (11), the linear guide rail sliding table (11) comprises a sliding block (111), a retaining block (112) and a sliding rail (113), the retaining block (112) is fixedly arranged on the base (5), the sliding rail (113) is fixedly arranged on the retaining block (112), one end of the sliding block (111) is in sliding connection with the sliding rail (113), and the other end of the sliding block is fixedly connected with the supporting frame (221).

5. An automatic mortar casting sample making apparatus according to claim 4, wherein: the novel sliding block type hydraulic machine further comprises a transmission assembly (4), wherein the transmission assembly (4) comprises a cross rod (41) and a push rod (42), one end of the push rod (42) is fixedly connected with the cross rod (41), and the other end of the push rod is fixedly connected with the sliding block (111).

6. An automatic mortar casting sample making apparatus according to claim 5, wherein: the transverse driving mechanism (1) further comprises a pushing cylinder (12), the pushing cylinder (12) comprises a piston rod (121), and the piston rod (121) is fixedly connected with the push rod (42).

7. An automatic mortar casting sample making apparatus according to claim 2, wherein: the vertical driving mechanism (3) comprises a lifting cylinder (31), one end of the lifting cylinder (31) is fixedly arranged on the base (5), and the other end of the lifting cylinder is fixedly connected with the pouring panel (211).

8. An automatic mortar casting sample making apparatus according to claim 3, wherein: the base (5) is provided with a signal emitter (51), and the support panel (222) is fixedly provided with a signal receiver (223).